PC1565 Power 632 Zone Control Panel

WARNING
This manual contains information on limitations regarding product use and function and information on the limitations as to liability of the manufacturer. The entire manual should be carefully read.
Installation Manual

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PC1565
Software Version 2.4ZD DLS-3 v1.3 and higher

WARNING Please Read Carefully
Note to Installers
This warning contains vital information. As the only individual in contact with system users, it is your responsibility to bring each item in this warning to the attention of the users of this system.
System Failures
This system has been carefully designed to be as effective as possible. There are circumstances, however, involving fire, burglary, or other types of emergencies where it may not provide protection. Any alarm system of any type may be compromised deliberately or may fail to operate as expected for a variety of reasons. Some but not all of these reasons may be:
Inadequate Installation
A security system must be installed properly in order to provide adequate protection. Every installation should be evaluated by a security professional to ensure that all access points and areas are covered. Locks and latches on windows and doors must be secure and operate as intended. Windows, doors, walls, ceilings and other building materials must be of sufficient strength and construction to provide the level of protection expected. A reevaluation must be done during and after any construction activity. An evaluation by the fire and/or police department is highly recommended if this service is available.
Criminal Knowledge
This system contains security features which were known to be effective at the time of manufacture. It is possible for persons with criminal intent to develop techniques which reduce the effectiveness of these features. It is important that a security system be reviewed periodically to ensure that its features remain effective and that it be updated or replaced if it is found that it does not provide the protection expected.
Access by Intruders
Intruders may enter through an unprotected access point, circumvent a sensing device, evade detection by moving through an area of insufficient coverage, disconnect a warning device, or interfere with or prevent the proper operation of the system.
Power Failure
Control units, intrusion detectors, smoke detectors and many other security devices require an adequate power supply for proper operation. If a device operates from batteries, it is possible for the batteries to fail. Even if the batteries have not failed, they must be charged, in good condition and installed correctly. If a device operates only by AC power, any interruption, however brief, will render that device inoperative while it does not have power. Power interruptions of any length are often accompanied by voltage fluctuations which may damage electronic equipment such as a security system. After a power interruption has occurred, immediately conduct a complete system test to ensure that the system operates as intended.
Failure of Replaceable Batteries
This system’s wireless transmitters have been designed to provide several years of battery life under normal conditions. The expected battery life is a function of the device environment, usage and type. Ambient conditions such as high humidity, high or low temperatures, or large temperature fluctuations may reduce the expected battery life. While each transmitting device has a low battery monitor which identifies when the batteries need to be replaced, this monitor may fail to operate as expected. Regular testing and maintenance will keep the system in good operating condition.
Compromise of Radio Frequency (Wireless) Devices
Signals may not reach the receiver under all circumstances which could include metal objects placed on or near the radio path or deliberate jamming or other inadvertent radio signal interference.
System Users
A user may not be able to operate a panic or emergency switch possibly due to permanent or temporary physical disability, inability to reach the device in time, or unfamiliarity with the correct operation. It is important that all system users be trained in the correct operation of the alarm system and that they know how to respond when the system indicates an alarm.
Smoke Detectors
Smoke detectors that are a part of this system may not properly alert occupants of a fire for a number of reasons, some of which follow. The smoke detectors may have been improperly installed or positioned. Smoke may not be able to reach the smoke detectors, such as when the fire is in a chimney, walls or roofs, or on the other side of closed doors. Smoke detectors may not detect smoke from fires on another level of the residence or building.
Every fire is different in the amount of smoke produced and the rate of burning. Smoke detectors cannot sense all types of fires equally well. Smoke detectors may not provide timely warning of fires caused by carelessness or safety hazards such as smoking in bed, violent explosions, escaping gas, improper storage of flammable materials, overloaded electrical circuits, children playing with matches or arson.
Even if the smoke detector operates as intended, there may be circumstances when there is insufficient warning to allow all occupants to escape in time to avoid injury or death.
Motion Detectors
Motion detectors can only detect motion within the designated areas as shown in their respective installation instructions. They cannot discriminate between intruders and intended occupants. Motion detectors do not provide volumetric area protection. They have multiple beams of detection and motion can only be detected in unobstructed areas covered by these beams. They cannot detect motion which occurs behind walls, ceilings, floor, closed doors, glass partitions, glass doors or windows. Any type of tampering whether intentional or unintentional such as masking, painting, or spraying of any material on the lenses, mirrors, windows or any other part of the detection system will impair its proper operation.
Passive infrared motion detectors operate by sensing changes in temperature. However their effectiveness can be reduced when the ambient temperature rises near or above body temperature or if there are intentional or unintentional sources of heat in or near the detection area. Some of these heat sources could be heaters, radiators, stoves, barbeques, fireplaces, sunlight, steam vents, lighting and so on.
Warning Devices
Warning devices such as sirens, bells, horns, or strobes may not warn people or waken someone sleeping if there is an intervening wall or door. If warning devices are located on a different level of the residence or premise, then it is less likely that the occupants will be alerted or awakened. Audible warning devices may be interfered with by other noise sources such as stereos, radios, televisions, air conditioners or other appliances, or passing traffic. Audible warning devices, however loud, may not be heard by a hearing-impaired person.
Telephone Lines
If telephone lines are used to transmit alarms, they may be out of service or busy for certain periods of time. Also an intruder may cut the telephone line or defeat its operation by more sophisticated means which may be difficult to detect.
Insufficient Time
There may be circumstances when the system will operate as intended, yet the occupants will not be protected from the emergency due to their inability to respond to the warnings in a timely manner. If the system is monitored, the response may not occur in time to protect the occupants or their belongings.
Component Failure
Although every effort has been made to make this system as reliable as possible, the system may fail to function as intended due to the failure of a component.
Inadequate Testing
Most problems that would prevent an alarm system from operating as intended can be found by regular testing and maintenance. The complete system should be tested weekly and immediately after a break-in, an attempted break-in, a fire, a storm, an earthquake, an accident, or any kind of construction activity inside or outside the premises. The testing should include all sensing devices, keypads, consoles, alarm indicating devices and any other operational devices that are part of the system.
Security and Insurance
Regardless of its capabilities, an alarm system is not a substitute for property or life insurance. An alarm system also is not a substitute for property owners, renters, or other occupants to act prudently to prevent or minimize the harmful effects of an emergency situation.

Limited Warranty
Digital Security Controls Ltd. warrants the original purchaser that for a period of twelve months from the date of purchase, the product shall be free of defects in materials and workmanship under normal use. During the warranty period, Digital Security Controls Ltd. shall, at its option, repair or replace any defective product upon return of the product to its factory, at no charge for labour and materials. Any replacement and/ or repaired parts are warranted for the remainder of the original warranty or ninety (90) days, whichever is longer. The original purchaser must promptly notify Digital Security Controls Ltd. in writing that there is defect in material or workmanship, such written notice to be received in all events prior to expiration of the warranty period. There is absolutely no warranty on software and all software products are sold as a user license under the terms of the software license agreement included with the product. The Customer assumes all responsibility for the proper selection, installation, operation and maintenance of any products purchased from DSC. Custom products are only warranted to the extent that they do not function upon delivery. In such cases, DSC can replace or credit at its option.
International Warranty
The warranty for international customers is the same as for any customer within Canada and the United States, with the exception that Digital Security Controls Ltd. shall not be responsible for any customs fees, taxes, or VAT that may be due.
Warranty Procedure
To obtain service under this warranty, please return the item(s) in question to the point of purchase. All authorized distributors and dealers have a warranty program. Anyone returning goods to Digital Security Controls Ltd. must first obtain an authorization number. Digital Security Controls Ltd. will not accept any shipment whatsoever for which prior authorization has not been obtained.
Conditions to Void Warranty
This warranty applies only to defects in parts and workmanship relating to normal use. It does not cover:
· damage incurred in shipping or handling;
· damage caused by disaster such as fire, flood, wind, earthquake or lightning;
· damage due to causes beyond the control of Digital Security Controls Ltd. such as excessive voltage, mechanical shock or water damage;
· damage caused by unauthorized attachment, alterations, modifications or foreign objects;
· damage caused by peripherals (unless such peripherals were supplied by Digital Security Controls Ltd.);
· defects caused by failure to provide a suitable installation environment for the products;
· damage caused by use of the products for purposes other than those for which it was designed;
· damage from improper maintenance;
· damage arising out of any other abuse, mishandling or improper application of the products.
Items Not Covered by Warranty
In addition to the items which void the Warranty, the following items shall not be covered by Warranty: (i) freight cost to the repair centre; (ii) products which are not identified with DSC’s product label and lot number or serial number; (iii) products disassembled or repaired in such a manner as to adversely affect performance or prevent adequate inspection or testing to verify any warranty claim. Access cards or tags returned for replacement under warranty will be credited or replaced at DSC’s option. Products not covered by this warranty, or otherwise out of warranty due to age, misuse, or damage shall be evaluated, and a repair estimate shall be provided. No repair work will be performed until a valid purchase order is received from the Customer and a Return Merchandise Authorisation number (RMA) is issued by DSC’s Customer Service.
Digital Security Controls Ltd.’s liability for failure to repair the product under this warranty after a reasonable number of attempts will be limited to a replacement of the product, as the exclusive remedy for breach of warranty. Under no circumstances shall Digital Security Controls Ltd. be liable for any special, incidental, or consequential damages based upon breach of warranty, breach of contract, negligence, strict liability, or any other legal theory. Such damages include, but are not limited to, loss of profits, loss of the product or any associated equipment, cost of capital, cost of substitute or replacement equipment, facilities or services, down time, purchaser’s time, the claims of third parties, including customers, and injury to property. The laws of some jurisdictions limit or do not allow the disclaimer of consequential damages. If the laws of such a jurisdiction apply to any claim by or against DSC, the limitations and disclaimers contained here shall be to the greatest extent permitted by law. Some states do not allow the exclusion or limitation of incidental or consequential damages, so that the above may not apply to you.
Disclaimer of Warranties
This warranty contains the entire warranty and shall be in lieu of any and all other warranties, whether expressed or implied (including all implied warranties of merchantability or fitness for a particular purpose) and of all other obligations or liabilities on the part of Digital Security Controls Ltd. Digital Security Controls Ltd. neither assumes responsibility for, nor authorizes any other person purporting to act on its behalf to modify or to change this warranty, nor to assume for it any other warranty or liability concerning this product. This disclaimer of warranties and limited warranty are governed by the laws of the province of Ontario, Canada.
WARNING: Digital Security Controls Ltd. recommends that the entire system be completely tested on a regular basis. However, despite frequent testing, and due to, but not limited to, criminal tampering or electrical disruption, it is possible for this product to fail to perform as expected.
Out of Warranty Repairs
Digital Security Controls Ltd. will at its option repair or replace out-of- warranty products which are returned to its factory according to the following conditions. Anyone returning goods to Digital Security Controls Ltd. must first obtain an authorization number. Digital Security Controls Ltd. will not accept any shipment whatsoever for which prior authorization has not been obtained.
Products which Digital Security Controls Ltd. determines to be repairable will be repaired and returned. A set fee which Digital Security Controls Ltd. has predetermined and which may be revised from time to time, will be charged for each unit repaired.
Products which Digital Security Controls Ltd. determines not to be repairable will be replaced by the nearest equivalent product available at that time. The current market price of the replacement product will be charged for each replacement unit.

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Table of Contents

Section 1: System Introduction

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1.1 Specifications ………………………………………………………………1

1.2 Additional Devices ……………………………………………………..2

1.3 Out of the Box ……………………………………………………………..2

Section 2: Getting Started

3

2.1 Installation Steps …………………………………………………………3

2.2 Terminal Descriptions …………………………………………………3

2.3 Keybus Operation and Wiring …………………………………….4

2.4 Current Ratings – Modules and Accessories ………………..4

2.5 Keypad Assignment ……………………………………………………4

2.6 Supervision …………………………………………………………………5

2.7 Removing Modules ……………………………………………………..5

2.8 Zone Wiring ………………………………………………………………..5

2.9 Zone Doubling …………………………………………………………….6

2.10 Fire Zone Wiring …………………………………………………………6

2.11 24-Hr Auxiliary Input Wiring (PGM2) ……………………….6

2.12 GSM Zone Wiring ……………………………………………………….6

2.13 Keypad Zones ……………………………………………………………..6

Section 3: Keypad Commands

8

3.1 Arming and Disarming ……………………………………………….8

3.2 Auto Bypass ­ Stay Arming ………………………………………..8

3.3 Automatic Arming ………………………………………………………8

3.4 [*] Commands ……………………………………………………………..8

3.5 Function Keys ……………………………………………………………11

3.6 Features Available for the LCD5500Z ………………………..12

Section 4: How to Program

13

4.1 Installer’s Programming ……………………………………………13

4.2 Programming Decimal Data ………………………………………13

4.3 Programming HEX Data ……………………………………………13

4.4 Programming Toggle Option Sections ……………………….14

4.5 Viewing Programming ………………………………………………14

Section 5: Program Descriptions

15

5.1 Programming Security Codes ……………………………………15

5.2 Zone Programming ……………………………………………………15

5.3 Zone Attributes …………………………………………………………16

5.4 Assigning Keypad Zones …………………………………………. 17 5.5 Zone Doubling …………………………………………………………. 17 5.6 Communicator ­ Dialing ………………………………………….. 17 5.7 Communicator ­ Account Numbers ………………………… 18 5.8 Communicator ­ Telephone Numbers ……………………… 18 5.9 Communicator ­ Reporting Codes …………………………… 18 5.10 Communicator ­ Reporting Formats ………………………… 19 5.11 Downloading …………………………………………………………… 20 5.12 PGM Output Options ………………………………………………. 21 5.13 Telephone Line Monitor (TLM) ……………………………….. 23 5.14 Bell …………………………………………………………………………… 23 5.15 Test Transmission …………………………………………………….. 23 5.16 Transmission Delay …………………………………………………. 24 5.17 Fire, Auxiliary and Panic Keys …………………………………. 24 5.18 Arming/Disarming Options ……………………………………. 24 5.19 Entry/Exit Delay Options ………………………………………… 25 5.20 Swinger Shutdown …………………………………………………… 25 5.21 Event Buffer …………………………………………………………….. 25 5.22 Keypad Lockout Options …………………………………………. 25 5.23 Keypad Blanking ……………………………………………………… 26 5.24 Keypad Backlighting ……………………………………………….. 26 5.25 Loop Response …………………………………………………………. 26 5.26 Keypad Tampers ……………………………………………………… 26 5.27 GSM1000 Cellular Communicator ……………………………. 26 5.28 Additional System Modules …………………………………….. 27 5.29 Clock Adjust …………………………………………………………….. 27 5.30 Timebase …………………………………………………………………. 27 5.31 Resetting Factory Defaults ……………………………………….. 27 5.32 Installer’s Lockout ……………………………………………………. 28 5.33 Walk Test (Installer) …………………………………………………. 28

Section 6: Programming Worksheets

29

Appendix A: Reporting Codes

44

Appendix B: Programming LCD Keypads

46

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PC1565 Wiring Diagram
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Section 1: System Introduction

1.1 Specifications
Downloading Software Support · PC1565 v2.4ZD uses DLS-3 v1.3 and higher.
Flexible Zone Configuration · Six fully programmable zones · System expandable to 32 zones using:
· up to 8 keypad zone inputs and/or · up to 32 wireless zones with the PC5132 wireless
expansion module · 12 zones using zone doubling · 38 access codes: one master code, one maintenance code, two duress codes, two supervision codes and 32 general access codes · 27 zone types; 8 programmable zone attributes · Normally closed, single EOL and double EOL zone wiring · 32 wireless zones with the PC5132 Wireless Receiver
Audible Alarm Output · 700mA Supervised Bell Output (current limited at 3 amps),
12VDC · Steady or Pulsed Output
EEPROM Memory · Does not lose programming or system status on complete
AC and Battery failure
Programmable Outputs · One programmable voltage output and one programmable
voltage output/input; 20 programmable options · PGM1 = 300mA; PGM2 = 50mA
Powerful 1.5 Amp Regulated Power Supply · 550 mA Auxiliary Supply, 12 VDC · Positive Temperature Coefficient (PTC) components
replace fuses · Supervision for loss of AC power, low battery · Internal clock locked to AC power frequency
Power Requirements · Transformer = 16.0 VAC, 40VA · Battery = 12 volt 14 Ah minimum rechargeable sealed lead
acid battery
Remote Keypad Specifications · Keypads available:
– PC5509 eight zone LED keypad – LCD5501Z fixed message LCD keypad with zone input – PC1555RKZ eight zone LED keypad with zone input – PC5508Z eight zone LED keypad with zone input – PC5516Z sixteen zone LED keypad with zone input – PC5532Z thirty-two zone LED keypad with zone input – LCD5500Z Alphanumeric keypad with zone input · All keypads (except PC5509) have five programmable function keys · Connect up to eight keypads · 4-wire (Quad) connection to Keybus · Built in piezoelectric buzzer

Digital Communicator Specifications · Supports major communication formats including SIA and
Contact ID · Event-initiated personal paging · Three programmable telephone numbers · Two account numbers · Supports GSM1000 cellular communication · Supports LINKS2X50 long range radio transmitter · DTMF and pulse dialing · DPDT line seizure · Anti-jam feature · Split reporting of selected transmissions to each telephone
number

System Supervision Features

The PC1565 continuously monitors a number of possible trou-

ble conditions including:

· AC power failure

· AUX Power Supply Trouble

· Fault by zone

· Loss of internal clock

· Tamper by zone

· Bell output trouble

· Fire trouble

· Telephone line trouble

· Failure to communicate · Low battery condition (panel)

· Low battery by zone (wireless)

· Module fault (supervisory or tamper)

False Alarm Prevention Features

· Audible Exit Delay

· Quick Exit

· Audible Exit Fault

· Cross Zone Burglary Alarm

· Communication Delay

· Rotating Keypress Buffer

· Urgency on Entry Delay · One Restart of Exit Delay

Additional Features · Auto-arm at specified time · Keypad-activated alarm output and communicator test · All modules connect to the system via a four wire Keybus
up to 1000’/305m from main panel · An event buffer which records the past 128 events with
both the time and date at which they occurred; buffer can be printed using PC5400 serial interface module, or viewed with the LCD5500Z keypad and DLS-3 software · Supports the addition of the PC5132 wireless receiver for integration of wireless devices · Uploading and downloading capability · Local downloading capability through the use of the PC-LINK adaptor · Added Keybus fault protection: clock and data outputs have been programmed to withstand shorts to +12v to prevent control panel damage · Supports the PC5208 low current output module · Supports zone doubling expanding the control panel from 6 to 12 zones

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1.2 Additional Devices
In addition to the information below, see the back cover for a DSC module compatibility table.
PC5132 Wireless Receiver The PC5132 Wireless Receiver can be used to connect up to 32 wireless devices to the system. All devices are spread spectrum, 900 MHz, fully supervised devices which use standard AAA’ orAA’ alkaline batteries. Seven devices are available. They are as follows:
WLS904 Wireless Motion Detector: Adds wireless space pro-
tection to your system
WLS905 Wireless Universal Transmitter: Adds wireless door
or window contacts to your system.
WLS906 Wireless Smoke Detector: Adds smoke detection to
your system.
WLS907 Wireless Slimline Universal Transmitter: A smaller
wireless door or window contact.
WLS908 Wireless Panic Pendant: Adds personal protection to
the system. When used, the unit will indicate a non-medical emergency to the central station.
WLS909 Wireless Key: Adds a simple and mobile method of arm-
ing and disarming to the system, as well as one-button access to several programmable functions.
WLS910 Wireless Handheld Keypad: A portable keypad which
allows arming and disarming from anywhere on the premises.
PC5400 Printer Module The PC5400 Printer Module allows the panel to print out all events that occur on the system to any serial printer. The printout will contain the time, date and the event that occurred.
GSM1000 Cellular Communicator The GSM1000 Cellular Communicator can be used three different ways: as the sole communicator for the panel, as a backup for either or both telephone numbers or as a redundant backup to the land line communicator where the panel will call both the land line and via the GSM.
LINKS2X50 Either the LINKS2150 or LINKS2450 may be used to transmit alarm information over a long range radio network.

PC5208 Low Current Output Module The PC5208 adds eight low current outputs (50mA) to the control panel. Each output is individually programmable with PGM output options. Please refer to section 5.12 `PGM Output Options’ on page 21. See the PC5208 Installation Instructions for more information.
Cabinets Several different cabinets are available for the PC1565 modules. They are as follows:
PC5003C Cabinet Main control cabinet for the PC1565 main panel. Dimensions 288mm x 298mm x 78mm / 11.3″ x 11.7″ x 3″ approximately.
PC500C Cabinet Main control cabinet for the PC1565 main panel. Dimensions 213mm x 235mm x 78mm / 8.4″ x 9.25″ x 3″ approximately.
PC5004C Cabinet Cabinet to house the PC5400 Printer Module. Dimensions 229mm x 178mm x 65mm / 9″ x 7″ x 2.6″ approximately.
1.3 Out of the Box
Please verify that the following components are included in your system: · one main control cabinet · one PC1565 main control circuit board · one PC1555RKZ keypad with zone input · one Installation Manual with programming worksheets · one Instruction Manual for the end user · one hardware pack consisting of:
– one mylar cabinet label – four plastic circuit board standoffs – thirteen 5600 (5.6K) resistors – one 2200 (2.2K) resistor – one 1000 (1K) resistor – ground connection assembly – one cabinet door plug (if required) – six 8200 (8.2K) resistors

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Section 2: Getting Started

The following sections provide a thorough description of how to wire and configure devices and zones.
2.1 Installation Steps
Read this section completely before you begin. Once you have an overall understanding of the installation process, carefully work through each step.
Step 1: Create a Layout Draw a rough sketch of the building to get an idea of where all alarm detection devices, keypads and other modules are to be located.
Step 2: Mounting the Panel Mount the panel in a dry area close to a power source and the incoming telephone line. Before attaching the cabinet to the wall, be sure to press the four circuit board mounting studs into the cabinet from the back. After you have attached the cabinet to the wall, stick the provided DSC logo sticker on the front of the cabinet.
NOTE:You must complete all wiring before connecting the battery, or applying AC to the panel.
Step 3: Wiring the Keybus (Section 2.3) Wire the Keybus to each of the modules following the guidelines provided in Section 2.3 of this manual.
Step 4: Zone Wiring (Section 2.8) You must power down the control panel to complete all zone wiring. Please refer to 2.8 `Zone Wiring’ on page 5 when connecting zones using normally closed loops, single EOL resistors, double EOL resistors, Fire zones and Keyswitch Arming zones.
Step 5: Complete Wiring (Section 2.2) Complete all other wiring including bells or sirens, telephone line connections, and ground connections following the guidelines provided in Section 2.2 (“Terminal Descriptions”).
Step 6: Power up the Control Once all zone and Keybus wiring is complete, power up the control panel. First, connect the red battery lead to the positive terminal and the black lead to negative. Then, connect the AC.
NOTE: Connect the battery before connecting the AC. You must apply AC power to the panel for at least 10 seconds, or the panel will not function. The panel will not power up on the battery connection alone.
Step 7: Keypad Assignment (Section 2.5) In order for keypads to be properly supervised, each must be assigned to a different slot. Please follow the guidelines provided in Section 2.5 when assigning keypads.
Step 8: Supervision (Section 2.6) The supervision of each module by the panel is automatically enabled upon power up. Please verify that all modules appear on the system according to the instructions in Section 2.6.
Step 9: Programming the System (Sections 4 & 5) Section 4 explains how to program the panel. Section 5 contains a complete description of the various programmable features, which options are available and how they function. Fill out the Programming Worksheets completely before attempting to program the system.

Step 10: Testing the System Test the panel thoroughly to ensure that all features and functions are operating as programmed.
2.2 Terminal Descriptions
Battery Connection A 12V 4Ah rechargeable battery is used as a backup source of power in the event of an AC power failure. The battery also provides additional current when the panel’s demands exceed the power output of the transformer, such as when the panel is in alarm. The High Current Charge/Standard Battery Charge option (section [701], option [7]) allows you to choose between a high current battery charge and the standard battery charge rate.
High Current/Standard Battery Charge . . . .Section [701]: [7] NOTE:Do not connect the battery until all other wiring is complete. Connect the battery before connecting the AC.
Connect the RED battery lead to the positive battery terminal; connect the BLACK lead to negative.
AC Terminals ­ AC The panel requires a 16VAC, 40VA transformer. Connect the transformer to an AC source and connect the transformer to these terminals. The panel can be programmed to accept a power line frequency of either 50Hz AC or 60Hz AC in programming section [701], option [1].
NOTE:Do not connect the transformer until all other wiring is complete.
Auxiliary Power Terminals ­ AUX+ and AUXThese terminals provide up to 550mA of additional current at 12 VDC for devices requiring power. Connect the positive side of any device requiring power to the AUX+ terminal, the negative side to AUX- (ground). The AUX output is protected. This means that if too much current is drawn from these terminals (such as a wiring short), the panel will temporarily shut off the output until the problem is corrected.
Bell Output Terminals ­ BELL+ and BELLThese terminals provide up to 700 mA of continuous current at 12 VDC for powering bells, sirens, strobes or other warningtype equipment. Connect the positive side of any alarm warning device to BELL+, the negative side to BELL­. Please note that the Bell output is protected: if too much current is drawn from these terminals (such as a wiring short), the Bell PTC will open. Three amps can be drawn for short periods only. The Bell output is supervised. If no alarm warning devices are in use, connect a 1000 resistor across BELL+ and BELL­ to prevent the panel from displaying a trouble condition. For more information, please refer to [*][2] Trouble Display’ on page 9). Keybus Terminals ­ AUX+, AUX-, YEL, GRN The Keybus is used by the panel to communicate with modules and vice versa. Each module has four Keybus terminals that must be connected to the four Keybus terminals on the panel. For more information, see section 2.3Keybus Operation and Wiring’ on page 4.

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Programmable Output Terminals ­ PGM1 and PGM2

Each PGM output is designed so that when activated by the

panel, the terminal will switch to ground

(ANY OUTPUT TERMINAL)

PGM1 can sink up to 300mA of current. Connect the positive side of the LED or buzzer to

AUX+, the negative side to

PGM1. If more than 300 mA of

current are required, a relay

must be used. PGM2 operates

similarly to PGM1. However,

PGM2 can only sink up to

50mA of current.

Please study PGM wiring in

the accompanying diagram.

For a list of the programmable

output options, please see

section 5.12 `PGM Output

Options’ on page 21.

Zone Input Terminals ­ Z1 to Z6 Each detection device must be connected to a zone on the control panel. We suggest that one detection device be connected to each zone; wiring multiple detection devices to a single zone, however, is possible. For zone wiring specifics, please see section 2.8 `Zone Wiring’ on page 5.

Telephone Connection Terminals ­ TIP, RING, T-1, R-1 If a telephone line is required for central station communication or downloading, connect an RJ-31X telephone jack in the following manner:

NOTE:Please ensure that all plugs and jacks meet the dimension, tolerance and metallic plating requirements of 47 C.F.R. Part 68, SubPart F. For proper operation, no other telephone equipment should be connected between the control panel and the telephone company facilities. Do not connect the alarm panel communicator to telephone lines intended for use with a fax machine. These lines may incorporate a voice filter which disconnects the line if anything other than fax signals are detected, resulting in incomplete transmissions.
2.3 Keybus Operation and Wiring
The Keybus is used by the panel to communicate with all connected modules and vice versa. The red (AUX+) and black (AUX-) terminals are used to provide power, while the yellow (YEL) and green (GRN) terminals are clock and data respectively.
NOTE: The four Keybus terminals of the panel must be connected to the four Keybus terminals or wires of all modules.
The following restrictions apply to Keybus wiring: · Keybus should be run in minimum 22 gauge quad
(0.5mm); two pair twist is preferred. · The modules should be home-run to the panel but can be
connected in series or T-tapped.

· Any module can be connected anywhere along the Keybus. You do not need to run a separate Keybus wire for keypads, etc.
· No module can be more than 1,000’/305m (in wire length) from the panel.
· Shielded wire should not be used.
Example of Keybus Wiring NOTE: Module (A) is correctly wired within 1,000’/ 305m of wire from the panel. Module (B) is correctly wired within 1,000’/ 305m of wire from the panel. Module (C) is NOT wired correctly as it is further than 1,000’/ 305m from the panel, in wire distance.
2.4 Current Ratings – Modules and Accessories In order for the PC1565 system to operate properly, the power output capabilities of the main control and the expansion devices must not be exceeded. Use the data presented below to ensure that no part of the system is overloaded and cannot function properly.
PC1565 (12 VDC) AUX+: ……..550mA: Subtract the listed rating for each key-
pad, expansion module and accessory connected to AUX+ or Keybus. BELL: ………700mA continuous rating; 3.0A short term. Available only with standby battery connected.
PC1565 Device Ratings (at 12 VDC) · LCD5500Z Keypad: 85mA max. · LCD5501Z Keypad: 90mA max · PC1555RKZ Keypad: 85mA max. · PC5208 Output Module: 50 mA · PC5508Z, PC5516Z, PC5532Z Keypads: 85mA max. · PC5509 Keypad: 85mA max. · PC5400 Serial Module: 65mA · PC5132 Wireless Receiver: 125mA
Other Devices Please read the manufacturer’s literature carefully to determine the maximum current requirements for each device– during activation or alarm–and include the proper values for loading calculations. Connected devices must not exceed system capabilities during any possible operational mode.
2.5 Keypad Assignment
There are eight available slots for keypads. LED keypads by default are always assigned to slot 1. LCD5500Z keypads are always assigned to slot 8. You will need to assign each keypad to its own slot (1 to 8). Keypad assignment is required, as it tells the panel which slots are occupied. The panel can then generate a fault when a keypad supervisory is not present.
NOTE: One LCD keypad must be assigned to slot 8 in order to upload keypad programming using DLS-1 software.
NOTE: PC5509 keypads are always assigned to slot 1. They cannot be reprogrammed.
How to Assign Keypads Do the following at each keypad installed on the system:

1. Enter [*][8][installer’s code] to go to installer programming

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2. Enter [000] for Keypad Programming
3. Enter [0] for Slot Assignment
4. Enter a two digit number (11-18) to specify which supervisory slot the keypad will occupy.
5. Press [#] twice to exit installer programming.
After assigning all keypads, perform a supervisory reset by entering section [902] in installer’s programming. The panel will now supervise all assigned keypads and enrolled modules on the system.
How to Program Function Keys By default, the 5 function keys on each keypad are programmed as Stay Arm (03), Away Arm (04), Chime (06), Sensor Reset (14) and Quick Exit (16). You can change the function of each key on every keypad:

1. Go to the keypad where you want to change the function
   key programming and enter Installer Programming.
   2. Press [000] for Keypad Programming.
   3. Enter [1] to [5] to select a function key to program.
   4. Enter the 2 digit number, [00] to [17] to select the feature you want the function key to have. For a complete list of Function Key options see section 3.5 Function Keys’ on page 11. 5\. Continue from step 3 until all function keys are programmed. 6\. To exit Installer Programming, press [#] twice. 2.6 Supervision By default, all modules are supervised upon installation. Supervision is enabled at all times so that the panel can indicate a trouble if a module is removed from the system. To check which modules are currently connected and supervised, enter programming section [903] from installer’s programming. The LCD keypad will allow you to scroll through the display of connected modules. A connected module which does not show as being present will appear as a trouble condition and the Trouble light on the keypad will turn ON. This condition may be due to one or more of the following reasons: · the module is not connected to the Keybus · there is a Keybus wiring problem · the module is more than 1,000’/305m from the panel · the module does not have enough power For more information regarding module supervision troubles, please refer to [*][2] Trouble Display’ on page 9.
   2.7 Removing Modules
   The panel must be instructed to no longer supervise a module being removed from the system. To remove the module, disconnect it from the Keybus and reset the supervision 22field by entering [902] in the installer’s programming. The panel will be reset to recognize and supervise all existing modules on the system.
   2.8 Zone Wiring
   For a complete description of the operation of all zone types, please refer to 5.2 `Zone Programming’ on page 15. There are several different ways in which zones may be wired, depending on which programming options have been selected. The panel can be programmed to supervise normally closed, End of Line, or Double End of Line loops. Please refer to the following diagrams to study each type of individually supervised zone wiring.

G et t i n g S t a r t e d : 2.6 Supervision

NOTE: Any zone programmed for Fire or 24-hr Supervisory must be wired with a single End of Line (EOL) resistor regardless of the type of zone wiring supervision selected for the panel (section [013]: [1] -[2]). See 5.2 `Zone Programming’ on page 15.
NOTE:If you change the zone supervision options from DEOL to EOL or from NC to DEOL (section [013], options [1] or [2]), you should power down the system completely, and then power it back up. If you do not, the zones may not work correctly.
Normally Closed (NC) Loops

ANY Z ANY COM TERMINAL TERMINAL

ANY Z ANY COM TERMINAL TERMINAL

To enable normally closed loops, programming section [013], option [1] must be ON.
NOTE:This option should only be selected if Normally Closed (NC) detection devices or contacts are being used.
Single End Of Line (EOL) Resistors (5600) To enable panel detection of single end of line resistors, programming section [013], options [1] and [2] must be OFF.

NOTE:This option should be selected if either Normally Closed (NC) or Normally Open (NO) detection devices or contacts are being used.
Double End of Line (DEOL) Resistors Double End of Line resistors allow the panel to determine if the zone is in alarm, tampered or faulted. To enable panel detection of double end of line resistors, programming section [013], option [1] must be OFF and option [2] must be ON.
NOTE: If the Double EOL supervision option is enabled, all hardwire zones on the main panel must be wired for Double EOL resistors, except for Fire and 24-hr Supervisory zones.
NOTE:Do not wire DEOL resistors on keypad zones.
NOTE: Do not use DEOL resistors for Fire zones or 24-hr Supervisory zones. Do not wire Fire zones to keypad zone terminals if the DEOL supervision option is selected.

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ANY Z TERMINAL

ANY COM TERMINAL
DOUBLE EOL CIRCUIT 1 NORMALLY CLOSED CONTACT WITH 5600 END-OF-LINE RESISTORS

2.10 Fire Zone Wiring
NOTE:4-Wire Smoke Detectors All fire zones must be wired according to the following diagram:

NOTE: This option can only be selected if Normally Closed (NC) detection devices or contacts are being used.

NOTE:Only one NC contact can be connected to each zone. Wiring multiple detection devices or contacts on a single loop is not allowed.

The following chart shows zone status under certain conditions:

Loop Resistance

Loop Status

0 (shorted wire, loop shorted)

Fault

5600 (contact closed)

Secure

Infinite (broken wire, loop open)

Tamper

11200 (contact open)

Violated

End of Line Resistors. . . . . . . . . . . . . . . . . . Section [013]: [1] Double End of Line Resistors . . . . . . . . . . . Section [013]: [2]

2.9 Zone Doubling
Zone Doubling is a unique feature that will allow you to double the zones on the main board from 6 to 12. All zones must be wired according to the following diagram.

5K6 Zone A
8K2 Zone B
The zone using the 5.6K resistor will be the first zone (lower number zone) and the zone using the 8.2K resistor will be the second zone (higher number zone). For example, Zone 6 will become Zone 6 (5.6K) and Zone 12 (8.2K). From this circuit the panel can only detect four states: 1. Normal 2. Zone A open 3. Zone B open 4. Zone A and Zone B open A fault or short condition will still represent a normal state, and a tamper condition represents both zones open. Therefore this circuit cannot detect a tamper or fault. Only Normally Closed contacts can be used on zones that are doubled. NOTE: When programming a fire zone with the zone doubling option on, it must be programmed as Zone A and Zone B must be null. Please refer to the wiring diagram in section 2.10.

2.11 24-Hr Auxiliary Input Wiring (PGM2)
If PGM2 has been programmed for 24-hour operation, the zone must be wired according to the following diagram:
NOTE: If PGM2 is programmed for 24-Hr Auxiliary Input support, the connector JP1 on the main board must be removed.
2.12 GSM Zone Wiring
For GSM1000 zone wiring, please refer to the GSM1000 Installation Manual.
2.13 Keypad Zones
Each “z” keypad on the system has a zone input to which a device – such as a door contact – can be connected. This eliminates the need to run wires back to the control panel for every device. To install the keypad, open the keypad plastic by removing the screw at the bottom of the unit. Locate the five terminals on the keypad circuit board. Connect the four Keybus wires from the control panel: the red wire to R, the black to B, the yellow to Y and the green to G. To connect the zone, run one wire to the Z terminal and the other to B. For powered devices, use red and black to supply power to the device. Run the red wire to the R (positive) terminal and the black wire to the B (negative) terminal. When using end of line supervision, connect the zone according to one of the configurations outlined in section 2.8 “Zone Wiring”. End of line resistors must be placed on the device end of the loop, not at the keypad. NOTE: Keypad zones do not support DEOL resistors.

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Assigning Keypad Zones When using keypad zone inputs, each input used must be assigned a zone number in Installer’s Programming. First, ensure that you have enrolled all installed keypads into the desired slots. (See 2.5 Keypad Assignment’ on page 4.) Next, enter programming section [020] to assign the zones. There are eight programming locations in this section, one for each keypad slot. Enter a 2-digit zone number for each of the keypad zones. This number must be entered in the location corresponding to the keypad to which each zone is connected. Example: The zone on an LCD5500Z keypad in slot 8 is to be assigned zone 3. In section [020], scroll to option [8] and enter (03). NOTE:Keypad zones 1-6 will replace zone terminals Z1-Z6 on the control panel. NOTE: Once the keypad zones are assigned, you must also program zone definitions and zone attributes. (See also 5.4Assigning Keypad Zones’ on page 17).

G et t i n g S t a r t e d : 2.13 Keypad Zones

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Section 3: Keypad Commands

Use any system keypad to enter commands and/or program the PC1565 security system. The LED keypad uses function and zone indicator lights to represent alarm functions and status. If you have a PC1555RKZ keypad, the System light acts as a Trouble, Memory, Program and Bypass indicator. Unlike other LED keypads, these conditions will only be represented by the System light. The LCD keypad provides a written description on the liquid crystal display and uses function indicator lights to communicate alarm status to the user. The PC1565 Instruction Manual provides basic directions for arming and disarming the system, bypassing zones and performing user functions from the keypads. The following sections provide additional details on these functions.
3.1 Arming and Disarming
For a description of basic arming and disarming, please see the PC1565 Instruction Manual. For other methods of arming, please refer to “[][0] Quick Arm”, “[][9] Arming Without Entry Delay” and 3.5 Function Keys’ on page 11. NOTE: The event buffer will log “Armed in Stay Mode” or “Armed in Away Mode” whenever the system is armed. In an attempt to prevent false alarms, the Audible Exit Fault will notify the user of an improper exit when they arm their system. If a non force-arming Delay 1 or Delay 2 type zone is left open at the end of the exit delay, the entry delay will begin immediately and the bell or siren will sound a steady alarm for the entry delay period. At the end of the entry delay period, if the system has not been disarmed it will go into alarm. This feature can be turned OFF in programming section [013], option [6]. (See 5.18Arming/Disarming Options’ on page 24.)
3.2 Auto Bypass ­ Stay Arming
Stay arming allows the user to arm the system without leaving the premises. All zones programmed as stay/away will be bypassed when the user stay arms the system, so that the user does not have to bypass interior zones manually. (See 5.2 Zone Programming’ on page 15.) When the system is armed using a valid access code, if any zones on the system have been programmed as stay/away zones, the Bypass light will turn ON. The panel will then monitor all zones programmed as Delay 1 and Delay 2 zones, such as designated entry/exit doors. If a delay zone is not violated by the end of the exit delay, the panel will bypass all stay/away zones. The Bypass light will remain on to inform the user that the interior zones have been automatically bypassed by the panel. If a delay zone is violated during the exit delay, the system will arm in Away mode and all stay/away zones will be active after the exit delay expires. The user can arm the stay/away zones at any time by entering the [*][1] keypad command. (See[*][1] Bypassing and Activating Stay/Away Zones’ on page 8.) Stay arming can also be initiated by pressing and holding the Stay function key for two seconds on the PC5508Z and LCD5500Z keypads, if programmed by the installer. For more information regarding Stay arming, please see 3.5 `Function Keys’ on page 11.

3.3 Automatic Arming
The system can be programmed to Auto-Arm at a specific time every day if it is in the disarmed condition. In order for the Auto-arm function to work properly, you must program the correct Time of Day. For programming the clock and auto-arm times, see [*][6] User Functions’ on page 10. When the system’s internal clock matches the Auto-arm Time, the panel will check the system status. If the system is armed, the panel will do nothing until the next day at the auto-arm time, when it will check the system again. If the system is disarmed at the auto-arm time, the panel will sound the buzzer of all keypads for one minute. If the Bell Squawk During Autoarm option is enabled (section [014], option [2]), the bell will squawk once every 10 seconds while the system is auto-arming. If a valid access code is entered, auto-arming will be aborted. NOTE: If auto-arm is cancelled, the number of the user who cancelled the auto- arm will be logged in the event buffer. If no code is entered, the panel will auto-arm. If a zone is violated, the panel will transmit a Partial Closing Reporting Code ­ if programmed ­ to indicate to the central station that the system is not secure. If the zone is restored, the panel will add the zone back into the system. NOTE: Auto-arming can only be cancelled by entering a valid access code at any keypad. 3.4 [*] Commands The [*] key commands provide an easy way for the user to access basic system programming ­ such as programming access codes or bypassing zones. The user can also use the [*] key commands to check on the system’s status, including viewing trouble conditions and displaying the event buffer on the LCD keypad. The [*] key commands can be performed from both LCD and LED keypads. The LED keypad uses the zone indicator lights to display command information. The LCD display provides written information, guiding the user through each command. The commands in this section are explained as viewed from an LED keypad. When using an LCD keypad, use the arrow keys (< >) to scroll through information provided. Otherwise, the functions remain the same for both keypad types. [*][1] Bypassing and Activating Stay/Away Zones Use the [*][1] keypad command to bypass individual zones. A bypassed zone will not cause an alarm. NOTE: Zones can only be bypassed when the system is not armed. If the Code Required for Bypass option is enabled (section [015], option [5]), only access codes with the bypass attribute enabled will be able to bypass zones. (See 5.1Programming Security Codes’ on page 15.) If the Bypass Status Displayed While Armed option is chosen, the Bypass (or System) light will be ON while the system is armed to indicate any bypassed zones. (See 5.18 `Arming/ Disarming Options’ on page 24.)
NOTE: When you disarm the system, all manually-bypassed zones will be unbypassed.

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Ke y p a d C o m m a n d s : 3.4 [*] Commands

Activate Stay/Away Zones If the system is armed in stay mode, the [][1] command can be used to activate the stay/away zones.
Night Zone This zone type is identical to the Interior, Stay-Away zone [05] except that it will not be activated when Stay-Away zones are reactivated ([][1]). When the system is armed in Stay mode, (Stay function key, [][9], At Home arming, Delay zone is NOT tripped during the exit delay time), the Night Zone will be bypassed. When the system is armed in Away mode (Away function key, Delay zone is tripped during the exit delay time), the Night zone will function like an Interior zone [04]. This zone is type 31.
[][2] Trouble Display The panel constantly monitors itself for several different trouble conditions. If a trouble condition is present, the Trouble (or System) light will be on and the keypad will beep twice every 10 seconds. When the system is disarmed, users can silence the trouble beep for faults and tampers by entering an access code. For other troubles, users can silence the trouble beep by pressing any key at any system keypad. The PC5132-NB receiver detects jamming signals that can prevent the receiver from properly receiving transmissions

from enrolled devices. If the system detects jamming signals for longer than 30 seconds, the Trouble (or System) light will turn on. The keypad will not sound trouble beeps for an RF Jam trouble unless the Audible RF Trouble (Keypad Beeps) option is turned on. If the system detects jamming signals for longer than 5 minutes, the panel will send a General System Trouble reporting code.
Audible RF Trouble (Keypad Beeps) . . . . . .Section [018]: [6] To view trouble conditions from an LED keypad: 1. Press [*][2]. 2. The keypad will flash the Trouble (or System) light. The
zone indicator lights corresponding to the present trouble conditions will be ON. When using an LCD keypad, the trouble conditions will be listed on the display. Use the arrow (< >) keys to scroll through the list of present trouble conditions. NOTE: Troubles can be viewed while armed using the LCD keypad, provided the keypad is version 2.0 or later. Older keypads will incorrectly display “Fire Trouble”. If using older LCD keypads, programming section [013], option [3] as OFF will ensure troubles are displayed correctly.
The various troubles are described below:

Light 1
2 3 4 5 6
7
8

Trouble

Service Required: Press [1] to determine the specific trouble. Lights 1 – 5 will light up to indicate the trouble:
· Light [1] Low Battery: Main panel backup battery charge is low (below 11.5 volts under load).Trouble is restored when the battery charges over 12.5 volts.
· Light [2] Bell Circuit Trouble: The bell circuit is open (see section 5.14 Bell’ on page 23). · Light [3] General System Trouble: The printer connected to the PC5400 Printer module has a fault and is off-line. · Light [4] General System Tamper: Tamper has been detected in a module. · Light [5] General System Supervisory: The panel has lost communication with a module connected to the Keybus (see section 2.6Supervision’ on page 5). The event buffer will log the event.
NOTE: All tamper conditions must be physically restored before the trouble condition will clear.

NOTE: Lights [6-8] ­ Not used
AC Failure: AC power is no longer being supplied to the control panel. The Trouble (or System) light will flash if an AC
Failure is present, if the Trouble Light Flashes if AC Fails option is programmed (section [016], option [2]). This trouble will not be displayed if the AC Trouble Displayed option is disabled (section [016], option [1]). See section 5.9 Communicator ­ Reporting Codes’ on page 18 for information on AC trouble reporting. Telephone Line Monitoring Trouble (TLM): There is a problem with the telephone line (See section 5.13Telephone Line Monitor (TLM)’ on page 23.)
Failure to Communicate (FTC): The communicator failed to communicate with any of the programmed telephone
numbers (see section 5.6 `Communicator ­ Dialing’ on page 17).
Zone Fault (including Fire Zone): A zone on the system is experiencing trouble, meaning that a zone could not
provide an alarm to the panel if required to do so (e.g. a fire zone is open, or there is a short on a DEOL zone, or a supervisory fault on a wireless zone). When a zone fault trouble condition occurs, the keypad(s) on the system will start to beep. Press [5] while in Trouble mode to view the affected zones.
NOTE: A Fire zone trouble will be generated and displayed in the armed state.
Zone Tamper: A zone configured for Double End Of Line resistor supervision has a tamper condition, or the tamper
switch is open on a wireless device. When a tamper condition occurs, the keypad(s) will start to beep. Press [6] while in the Trouble mode to view the affected zones. If a zone is tampered or faulted, it must be fully restored to clear the trouble.
NOTE: By enabling Tampers/Faults Do Not Show as Open in section [013], option [4], Faults and Tampers will not show
as open on the keypad, and will be hidden from the end user. If the option is disabled, Faults and Tampers will be displayed on the keypad

NOTE:Once a zone is tampered or faulted, it must be completely restored before the trouble condition will clear.

Device Low Battery: A wireless device has a low battery condition. Press [7] one, two, or three times to view which

devices are experiencing battery failure. An LED keypad will indicate battery failure using zone lights 1 to 8. The following will occur:

Keypad beeps: Keypad displays:

Press [7]

1

Zones with low batteries (LED keypad – zone lights 1 to 32)

Press [7] again 2

Handheld keypads with low batteries (LED keypad – zone lights 1 to 4)

Press [7] again 3

Wireless keys with low batteries (LED keypad – zone lights 1 to 8)

To view the battery conditions of wireless keys 9 through 16, you must use an LCD keypad.

Loss of System Time: When the panel is powered up, the internal clock needs to be set to the correct time. This

trouble is cleared when an attempt is made to reset the clock.

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[][3] Alarm Memory The Memory (or System) light will be on if any alarm occurred during the last armed period or ­ in the case of 24-hr zones ­ if an alarm occurred while the panel was disarmed. To view alarm memory, press [][3]. The keypad will flash the Memory (or System) light and the zone indicator lights corresponding to the alarm or tamper conditions which occurred during or since the last armed period. To clear the Memory (or System) light, arm and disarm the system.
[][4] Door Chime On/Off The door chime feature is used to sound a tone from the keypad whenever a zone programmed as a chime zone is activated. (See 5.3 `Zone Attributes’ on page 16.) If the door chime feature is enabled, the keypad will emit five short beeps whenever a chime zone is activated. Designated entry/exit doors are often defined as chime zones. The feature can be turned on or off while the system is armed or disarmed.
[][5] Programming Access Codes There are 37 access codes available to the user. They are: Access code (40) ………………… One master code Access codes (01)-(32)………… 32 general access codes Access codes (33)-(34)………… Two duress codes Access codes (41)-(42)………… Two supervisor codes All access codes have the ability to arm or disarm the system and can activate the PGM Outputs using the [][7] commands. Access codes can be either four or six digits (See 5.1 Programming Security Codes’ on page 15.) For a description of how to program access codes from LCD or LED keypads, see the PC1565 Instruction Manual. Master Code ­ Access Code (40) This code can be used to program all access codes. The Master code has all Access Code Attributes enabled by default, so that the Master code can be used to perform any keypad function. Master code attributes cannot be changed. If the Master Code Not Changeable option is enabled, (section [015], option [6]) the Master Code can only be changed by the Installer. General Access Codes ­ Access Codes (01) to (32) General access codes can arm and disarm the system. When the Code Required for Bypassing option is enabled, users will need to enter a valid access code when bypassing zones. Individual access codes can have the Zone Bypassing attribute disabled under Access Code Attribute programming. For more information regarding access code options, please see 5.1Programming Security Codes’ on page 15.
Duress Code ­ Access Code (33) and (34) Duress codes will send a duress reporting code to the central station when entered.
NOTE: If a duress code is programmed, when it is used, the panel will always send a reporting code to the central station, even if the attributes of the duress code are turned off.
Supervisor Codes ­ Access Code (41) and (42) These codes can be used to program general access and duress codes. The two supervisor codes have all attributes on by default. These settings can be changed.
Access Code Attributes There are three access code attributes which can be programmed for each code. To program each attribute, enter [][5][Master Code][9] to enter the attribute programming mode. Then enter the code number [01-32,33,34,41,42]. Enter the attribute number:

Attribute [1] ……….User enabled for arming, disarming, alarm reset, [][7][1-2] options, auto-arm cancellation
Attribute [2] ……….Not used Attribute [3] ……….Zone bypassing enabled Attribute [4]-[6] ….Not used Attribute [7] ……….Bell squawk on access code entry Example: You can use the arm/disarm bell squawk attribute to have wireless key access codes squawk the bell, while other codes are silent. To do this, enable attribute [7] on all access codes associated with wireless keys.
NOTE: If you enable the Bell Squawk on Arming/Disarming (section [014], option [1]), the bell will sound arm/disarm bell squawks for all access codes, regardless of the programming for attribute [7]. See 5.18 `Arming/Disarming Options’ on page 24.
NOTE: Master code attributes cannot be changed.
[][6] User Functions This command can be used to program several different functions: To program User Functions: 1. Press [][6][Master Code]. The Program (or System) light
will flash.
2. Press the number [1] to [6] for the item to be programmed.
· [1] ­ Time and Date The time and date must be accurate for the auto-arm or test transmission functions to work properly and for the event buffer to time and date stamp all events. – Enter the time (hour and minute) using 24-hr format [HH MM] from 00:00 to 23:59. – Enter the date by month, day and year [MM DD YY].
· [2] ­ Auto-Arm Enable/Disable To enable or disable auto-arming, press [2]. The keypad will sound three short beeps when auto-arm is enabled and one long beep when disabled. For more information, see 3.3 Automatic Arming’ on page 8. · [3] ­ Auto-Arm Time The system can be programmed to arm automatically at a pre-set time. When programming the auto-arm time, enter the time (hour and minute) using 24-hr format [HH MM]. For more information, see 3.3Automatic Arming’ on page 8.
· [4] ­ System Test When [4] is pressed the panel will test the bell output, keypad lights and the communicator for two seconds. The panel will also send a System Test Reporting code, if programmed. (See 5.9 Communicator ­ Reporting Codes’ on page 18.) · [5] ­ Enable DLS (Downloading) When [5] is pressed, the panel will enable the downloading option for one hour or six hours depending on the option selected in programming section [702]: [7]. During this time, the panel will answer incoming downloading calls. (See 5.11Downloading’ on page 20.)
· [6] ­ User Initiated Call-Up When [6] is pressed, the panel will initiate a call to the downloading computer.
Additional Features Available from the LCD Keypad Additional features, including access to the event buffer, are available using the LCD keypad. Use the arrow keys (< >) to scroll through the [][6] menu and press the [*] key to select the following commands:

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Ke y p a d C o m m a n d s : 3.5 Function Keys

Viewing the Event Buffer from an LCD Keypad Select “View Event Buffer” from the [][6] menu. The keypad will display the event, event number, time and date along with the zone number and access code, if applicable. Press [] to toggle between this information and the event itself. Use the arrow keys (<>) to scroll through the events in the buffer. When you have finished viewing the event buffer, press [#] to exit.
Brightness Control You can select from 10 different backlighting levels. Use the arrow keys (<>) to scroll to the desired backlighting level. Press [#] to exit.
Contrast Control You can select from 10 different display contrast levels. Use the arrow keys (<>) to scroll to the desired contrast level. Press [#] to exit.
Keypad Sounder Control You can select from 21 different keypad tones. Use the arrow keys (<>) to scroll to the desired keypad sound level and press [#] to exit. This feature can be accessed on LED keypads by pressing and holding the [] key.
[][7] Command Output Functions The user can activate programmable output functions using the [][7][1-2] commands. The outputs may be activated when the system is either armed or disarmed.
[] [7] [1] ­ Command Output Option #1: Press [] [7] [1] [Access Code, if required] to activate outputs programmed as PGM output option [19]. This output can be used for operating devices such a garage door opener, lighting or door strikes.
[][7][2] ­ Command Output Option #2: Press [][7][2][Access Code, if required] to activate all outputs programmed as one of PGM output options [03] or [20]. Special Note: Traditionally, [][7][2] has been reserved for resetting smoke detectors. Smoke detectors should now be programmed as output [03] “Sensor Reset” . If using output option [03], do not program [20] Command Output Option #2. Please see 5.12 PGM Output Options’ on page 21 for more information. [*][8] Installer’s Programming Enter [*][8] followed by the Installer’s Code to access Installer’s Programming. See sections 4 and 5 for more information. [*][9] Arming Without Entry Delay When the system is armed with the [*][9] command, the panel will cancel the entry delay. Delay 1 and Delay 2 type zones will be instant and Stay/Away zones will be bypassed as soon as the exit delay has ended (see section 5.2Zone Programming’ on page 15). The user must enter a valid access code after pressing [][9].
[][0] Quick Arm If the Quick Arm option is enabled (section [015], option [4]), enter [][0] to arm the panel without an access code. (See 5.18 `Arming/Disarming Options’ on page 24.) If the Quick Arm option is disabled, users will need to enter an access code after pressing a function key.
NOTE: Quick Arm cannot be used to cancel auto-arm.
[][0] Quick Exit The Quick Exit function, if enabled, will allow someone to leave an armed premises through a Delay type zone without

having to disarm and re-arm the system. (See 5.18 Arming/ Disarming Options’ on page 24.) When [*][0] is entered, the panel will provide a two minute window for the user to exit the premises. During this time, the panel will ignore only one activation of a Delay zone. When the Delay zone is secured, the panel will end the two minute quick exit delay. If a second Delay zone is tripped, or if the zone is not restored after two minutes, the panel will begin entry delay 1. NOTE: If the Exit Delay is in progress, performing a Quick Exit will not extend the Exit Delay. 3.5 Function Keys There are five function keys on each keypad labelled Stay, Away, Chime, Reset and Exit. Each of these keys is programmed by default to perform one of the functions described below. Press and hold the appropriate key for two seconds to activate a function. If the Quick Arm option is disabled (section [015], option [4]), users will need to enter an access code after pressing a function key. NOTE:On the PC1555RKZ keypad, use number keys 1 – 5 for the function keys. “Stay” ­ (03) Stay Arm The system will arm in the Stay mode (see 3.2Auto Bypass ­ Stay Arming’ on page 8). Enable the Quick Arm feature (programming section [015], option [4]) to have this key function without the need to enter an access code. If Quick Arm is not enabled, the user will have to enter an access code before the system will stay arm.
“Away” ­ (04) Away Arm The system will arm in the Away mode (see 3.2 Auto Bypass ­ Stay Arming’ on page 8). Enable the Quick Arm feature (programming section [015], option [4]) to have this key function without the need to enter an access code. If Quick Arm is not enabled, the user will have to enter an access code before the system will away arm. When the panel is being Away armed, users can restart the exit delay once, by pressing the Away button before the exit delay expires. This will not work if the panel is being Stay armed. “Chime” ­ (06) Door Chime On / Off The Door Chime feature will turn ON or OFF. (See[][4] Door Chime On/Off’ on page 10.)
“Reset” ­ (14) Sensor Reset or [][7][2] The panel will activate all PGM outputs programmed as option [03] Sensor Reset or [20] Command Output Option

2. (See “[*][7] Command Output Functions” .)

“Exit” ­ (16) Activate Quick Exit The panel will activate the Quick Exit feature (See [*][0] Quick Exit’ on page 11.) Additional Function Key Options The programming of any function key on any keypad may be changed to one of the options listed below. (See 2.5Keypad Assignment’ on page 4 for instructions on changing function key programming.) Each option is listed according to the programming code, followed by the corresponding [] key command. For more information regarding each function, please refer to the appropriate part of Section 3.4, “[] Commands”.
NOTE: The PC5509 function keys cannot be changed from the defaults listed above.

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[00] Null Key: The key is not used and will perform no function when pressed.
[01]-[02] For future use [03] Stay Arm: As described above. [04] Away Arm: As described above. [05] [][9] No-Entry Delay Arm: A valid access code
must also be entered. [06] [][4] Door Chime On / Off: As described above. [07] [][6][—-][4] System Test: A valid master code must
also be entered. [08] [][1] Bypass Mode: A valid access code may need
to be entered. [09] [][2] Trouble Display [10] [][3] Alarm Memory [11] [][5] Programming Access Codes: A valid master
code must also be entered. [12] [][6] User Functions: A valid master code must also
be entered. [13] [][7][1] Command Output Option #1: A valid
access code may need to be entered. [14] [][7][2] Reset (Command Output Option #2): As
described above. [15] For future use [16] [][0] Quick Exit: As described above. [17] [][1] Reactivate Stay/Away Zones [18] – [20] For future use

3.6 Features Available for the LCD5500Z
These features are only available for LCD5500Z keypads with zone inputs:
Automatic Scrolling of Alarms in Memory The LCD5500Z keypad allows automatic scrolling through alarms in memory while the keypad is idle. This feature, if enabled, will override the clock display. This option can be programmed in LCD programming section [66], option [4].
24-hr Time Display Option The LCD5500Z can be programmed to display time using a 24hour clock, instead of a 12-hour, am/pm clock. This option can be programmed in LCD programming section [66], option [3].
Keypad Zones See 2.13 Keypad Zones’ on page 6. Viewing Troubles While Armed See[*][2] Trouble Display’ on page 9 for information on how to view troubles.
Backlighting Boost The LCD5500Z, LCD5501Z, PC55XXZ and PC1555RKZ zone input keypads will provide extra number pad lighting when any key is pressed. The backlighting boost will last for an additional 30 seconds after the last keypress.

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Section 4: How to Program

The following section of the manual describes the Installer’s Programming function and how to program the various sections. NOTE: Read the following section of the manual very carefully before you begin programming. We also recommend filling out the Programming Worksheets section before you program the panel.
For your reference, the corresponding programming sections for the functions listed are highlighted in text boxes such as this one.
4.1 Installer’s Programming
Installer’s Programming is used to program all communicator and panel options. The Installer’s Code is [5555] by default but should be changed to prevent unauthorized access to programming.
Installer’s Code. . . . . . . . . . . . . . . . . . . . . . . . . Section [006] From an LED Keypad: 1. Enter [][8][Installer’s Code].
The Program light (or System light on the PC1555RKZ) will flash to indicate that you are in programming mode. The Armed light will turn on to indicate that the panel is waiting for the three-digit programming section number. 2. Enter the three-digit section number corresponding to the section you wish to program. The Armed light will turn off. The Ready light will turn on to indicate that the panel is waiting for the information required to complete programming the selected section. 3. Enter the information required to complete section programming (i.e.: numbers, Hex data, or ON/OFF options). NOTE: If the three-digit section number entered is invalid, or if the module which pertains to the section is not present, the keypad will sound a two second error tone.
From an LCD Keypad: 1. From any keypad, enter [][8][Installer’s Code]. The Key-
pad will display `Enter Section’ followed by three dashes. 2. Enter the three- digit number corresponding to the pro-
gramming section number you wish to program. The keypad will now display the information required to complete programming the selected section. 3. Enter the information required to complete section programming (i.e.: numbers, Hex data, or ON/OFF options). If you enter information into a section and make a mistake, press the [#] key to exit the section. Select that section again and re-enter the information correctly. NOTE: There must be one digit in each box in the programming section in order for the change to be valid.

4.2 Programming Decimal Data
A set number of programming boxes are allotted for each section requiring decimal data (e.g.: codes, telephone numbers). If a digit is entered for each program box, the panel will automatically exit from the selected programming section. The Ready light will turn OFF and the Armed light will turn ON. On the PC1555RKZ and PC5508Z keypads, you can also press the [#] key to exit a programming section without entering data for every box. This is handy if you only need to change digits in the first few programming boxes. All other digits in the programming section will remain unchanged.
4.3 Programming Hex Data
On occasion, hexadecimal (Hex) digits may be required. To program a Hex digit press the [] key. The panel will enter Hex programming and Ready light will begin to flash. The following are the numbers which should be pressed to enter the appropriate Hex digit:
1=A 2=B 3=C 4=D 5=E 6=F Once the correct Hex digit has been entered, the Ready light will continue to flash. If another Hex digit is required, press the corresponding number. If a decimal digit is required, press the [] key again. The Ready light will turn on and the panel will return to regular decimal programming.
Example: To enter C1′ for a closing by user 1, you would enter: [*][3][*], [1]: · [*] to enter Hexadecimal mode (Ready light flashes) · [3] to enter C · [*] to return to decimal mode (Ready light is solid) · [1] to enter digit 1 NOTE: If Ready light is flashing, any number you enter will be programmed as the Hex equivalent. If you are using a pulse communications format, a decimal zero [0] does not transmit. Programming a zero [0] tells the panel not to send any pulses for that digit. Decimal zero [0] is a filler digit. To transmit a zero [0], it must be programmed as a HexadecimalA’.
Example: For the three digit account number `403′, you would enter:
[4], [][1][][3], [0]: · [4] to enter the digit 4 · [] to enter Hexadecimal mode (Ready light flashes) · [1] to enter A · [] to return to decimal mode (Ready light is solid) · [3] to enter the digit 3 · [0] to enter the digit 0 as a filler digit.

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4.4 Programming Toggle Option Sections
Some programming sections contain several toggle options. The panel will use zone lights 1 through 8 to indicate if the different options are enabled or disabled. Press the number corresponding to the option to turn it ON or OFF. Once all the toggle options have been selected correctly, press the [#] key to exit the section and save the changes. The Ready light will turn OFF and the Armed light will turn ON. Refer to the Programming Worksheets in this manual to determine what each option represents and whether the light should be ON or OFF for your application.
4.5 Viewing Programming
LED Keypads Any programming section can be viewed from an LED keypad. When a programming section is entered, the keypad will immediately display the first digit of information programmed in that section.

The keypad displays the information using a binary format,

according to the following chart:

See Hex data

entry instructions

Press any of the Emergency Keys (Fire, Auxiliary or Panic) to advance to the next digit. When all the digits in a section have been viewed, the panel will exit the section; the Ready Light will turn OFF and the Armed light will turn ON, waiting for the next three-digit programming section number to be entered. Press the [#] key to exit the section
LCD Keypad When a programming section is entered, the keypad will immediately display all the information programmed in that section. Use the arrow keys (<>) to scroll through the data being displayed. Scroll past the end of the data displayed or press the [#] key to exit the section.

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Section 5: Program Descriptions

The following section explains the operation of all programmable features and options and provides a summary of all corresponding programming locations.
5.1 Programming Security Codes
There are three codes which can be programmed by the installer in the Installer’s Programming function: the Master code, the Installer’s code, and a Maintenance code. All other access codes can be programmed through the [][5] command. (See `[][5] Programming Access Codes’ on page 10.) The master code can also be programmed by the user as access code (40). If the Master Code Not Changeable option is enabled, the system master code can only be changed by the installer. The Maintenance code can only be used to arm and disarm the system. The Maintenance code cannot bypass zones, use [][9] to arm the system, cancel autoarming, or perform [][7] command functions. There will be no arm/disarm bell squawks when the Maintenance code is used. General access codes can arm and disarm the system. When the Code Required for Bypassing option is enabled, users will need to enter a valid access code when bypassing zones. Individual access codes can have the Zone Bypassing attribute disabled under Access Code Attribute programming. (See [*][5] Programming Access Codes’ on page 10.) If the 6-Digit User Access Codes option is enabled, all the access codes may be programmed with six digits instead of four, with the exception of the Panel ID code and the Downloading Access Code. Installer’s Code. . . . . . . . . . . . . . . . . . . . . . . . . Section [006] Master Code. . . . . . . . . . . . . . . . . . . . . . . . . . . Section [007] Maintenance Code . . . . . . . . . . . . . . . . . . . . . . Section [008] Master Code Not Changeable . . . . . . . . . . Section [015]: [6] Code Required for Bypassing . . . . . . . . . . Section [015]: [5] 6-digit User Access Codes . . . . . . . . . . . . Section [701]: [5] 5.2 Zone Programming Zones 1-8 are enabled by default. Disable unused zones, or enable additional zones in programming sections [202] [205]. The zone definitions describe how each of the zones you use will operate. Program a two-digit code describing the zone definition in sections [001] – [004]. Select a definition from the list below. In addition, each zone has eight different attributes which may be programmed in sections [101] to [108]. (See 5.3Zone Attributes’ on page 16.)
Zone Definitions
[00] Null Zone The zone is vacant. Unused zones should be programmed as Null zones.
[01] Delay 1 Zone This zone type, normally used for entry/exit doors, can be violated during the exit delay time without causing an alarm. Once the exit delay has expired, opening the zone will start the entry delay timer. During the entry delay time, the keypad buzzer will sound steadily to advise the user that the system

should be disarmed. If the panel is disarmed before the entry time expires, no alarm will be generated.
[02] Delay 2 Zone The Delay 2 entry delay time can be set independently of Delay 1 in programming section [005] (System Times).
[03] Instant Zone This zone type will cause an instant alarm if it is violated when the panel is armed. Typically, this zone is used for windows, patio doors or other perimeter zones, and glass break detectors.
[04] Interior Zone This zone will not cause an alarm if violated during the entry delay. If the zone is violated before the entry delay has begun, it will cause an instant alarm. Typically, this zone is used for interior protection devices, such as motion detectors.
[05] Interior Stay/Away Zone This zone type works similarly to the Interior zone type, except that it will be automatically bypassed under the following conditions: · When the panel is armed in the Stay Mode. (See 3.5 Func- tion Keys’ on page 11.) · When the panel is armed without entry delay. (See [*][9] Arming Without Entry Delay’ on page 11.) · When the panel is armed with an access code and a Delay
type zone is NOT tripped during the exit delay. The automatic bypass prevents the user from having to manually bypass interior type zones when arming at home. This zone is typically used for interior protection devices, such as motion detectors.
[06] Delay Stay/Away Zone This zone type will operate similarly to Interior Stay/Away zones, except that it will always provide an entry delay. Typically, this zone is used for interior protection devices, such as motion detectors. This zone option will help prevent false alarms since it always provides an entry delay time for the user to turn off the panel.
NOTE: Hardwire motion detectors covering entry/exit doors that are using wireless transmitters must be programmed as Delay Stay/Away. If not, the panel may see the motion detector violation before the entry/exit transmitter has time to transmit to the receiver, causing a false alarm.
[07] Delayed 24-hr Fire Zone
NOTE:Do not wire Fire zones on keypad zone terminals if the DEOL supervision option is enabled for the panel (section [013], option [2]).
When this zone is violated, the alarm output will be immediately activated (pre-alert) but the communicator will be delayed for 30 seconds. If the user presses any key on any keypad during this delay, the alarm output and the communicator will be delayed an additional 90 seconds, giving the user time to correct the problem. If the zone is still violated after the 90 second delay, the panel will sound the alarm output and delay the communicator for 30 seconds. If the user does not press a key during the 30 second prealert, the alarm output will latch and the panel will communicate the alarm to the central station. The alarm will sound until the Bell Cutoff time expires (Section [005] “System Times”), or until a code is entered. (See 5.14 `Bell’ on page 23.)

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NOTE:If a second Fire type zone is violated or if the Fire keys are pressed during the delay period, the panel will latch the alarm output and will immediately communicate the alarm.
A violated Fire zone will be displayed on all keypads and can be delayed at any keypad. Typically this zone is used for latching smoke detectors.
[08] Standard 24-hr Fire Zone
NOTE:Do not wire Fire zones on keypad zone terminals if the DEOL supervision option is enabled for the panel (section [013], option [2]).
When this zone is violated, the panel will immediately latch the alarm output and communicate to the central station. The alarm will sound until the Bell Cutoff time expires (Section [005] “System Times”), or until a code is entered. (See 5.14 Bell’ on page 23.) A violated Fire zone will be displayed on all keypads. Typically this zone is used for pull stations. [09] 24-hr Supervisory Zone If this zone is violated when the system is either armed or disarmed, the panel will report to the central station, and will log the zone alarm to the event buffer. This zone gives a silent alarm by default. NOTE:Do not wire 24-Hour Supervisory zones on keypad zone terminals. [10] 24-hr Supervisory Buzzer Zone If this zone is violated when the system is either armed or disarmed, the panel will immediately latch the keypad buzzer until a valid access code is entered and will immediately communicate to the central station. [11] 24-hr Burglary Zone If this zone is violated when the system is either armed or disarmed, the panel will immediately latch the alarm output and communicate to the central station. The alarm will sound until the Bell Cutoff time expires (Section [005] “System Times”), or until a code is entered. (See 5.14Bell’ on page 23.)
[12] – [20] The following zone definitions operate similar to the 24-hr Burglary except for the System Event output type and the SIA identifier: [12] 24-hr Holdup Zone – This zone gives a silent alarm by default. [13] 24-hr Gas Zone [14] 24-hr Heating Zone [15] 24-hr Medical Zone [16] 24-hr Panic Zone [17] 24-hr Non-Medical Emergency Zone [18] 24-hr Sprinkler Zone [19] 24-hr Water Flow Zone [20] 24-hr Freezer Zone
[21] 24-hr Latching Tamper If this zone is violated, the installer must enter Installer’s Programming before the system can be armed.
NOTE: Wireless zones should not be programmed as zone types [22] – [24].
[22] Momentary Keyswitch Arm Zone Momentary violation of this zone will alternately arm/disarm the system.
[23] Maintained Keyswitch Arm Zone When this zone is violated, the system will arm. When this zone is secured, the system will disarm.

[24] GSM Answer Zone Downloading can be performed via the GSM1000 Cellular Communicator (if used) when the conventional telephone line is disconnected. If this operation is desired, connect the RING terminal of the GSM1000 to a GSM Answer zone. (See 2.12 LINKS Zone Wiring’ on page 6.) Refer to the GSM1000 Installation Manual for more information. NOTE:Do not wire GSM Answer zones on keypad zone terminals. [25] Interior Delay Zone This zone type is normally used with motion detectors and has a standard exit delay time. If the panel is Away armed (a delay zone is violated during the exit delay, or the Away function key is used), the Interior Delay zone will work the same as the Interior zone [04]. If the panel is Stay armed (a delay zone is NOT violated during the exit delay, the Stay key is used, or [*][9] is used for arming), a violation of the zone will initiate Entry Delay 1. [31] Night Zone This zone operates the same as [05] Stay-Away zone, except that it will not activate when Stay-Away zones are reactivated. When the system is armed in Stay mode, (Stay function key, [*][9], At Home arming, Delay zone is NOT tripped during the exit delay time), the Night Zone will be bypassed. When the system is armed in Away mode (Away function key, Delay zone is tripped during the exit delay time), the Night zone will function like an Interior zone [04]. [87] Delayed 24-hr Fire (Wireless) This zone type operates the same as [07] Delayed 24-hr Fire Zone and must be used if the smoke detector is wireless. [88] Standard 24-hr Fire (Wireless) This zone type operates the same as [08] Standard 24-hr Fire Zone and must be used if the smoke detector is wireless. Zone Definitions . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . . [001] Zone Assignments . . . . . . . . . . . . . . . . . . . . . . . . . . . . . [202] 5.3 Zone Attributes NOTE:All zones, with the exception of 24-hr and Fire, will provide an exit delay. NOTE: Do not change the attributes for Fire Zones from the default settings. Additional zone attributes can be programmed to customize the operation of a zone for a specific application. The following attributes are programmable for each zone: · Audible / Silent ­ This attribute determines whether or not the zone will activate the alarm output. · Pulsed / Steady ­ This attribute determines whether the alarm output will be steady or will pulse on and off every second. · Activate Chime ­ This attribute determines whether or not the zone will activate the chime feature. (See[][4] Door Chime On/Off’ on page 10.) · Bypass Enable ­ This attribute determines whether or not the zone can be manually bypassed. (See `[][1] Bypassing and Activating Stay/Away Zones’ on page 8.) · Force Arm Enable ­ This attribute determines whether or not the system can be armed while a zone is violated. At the end of the exit delay, if this type of zone is violated, it will be ignored by the panel. Once the zone is secured, it will be monitored by the system. This zone attribute, for example, will allow the user to arm the system with the

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P r o g r a m D e s c r i p t i o n s : 5.4 Assigning Keypad Zones

garage door open. Later, when the door is closed, it will be armed along with the rest of the system. Do not program this attribute for 24-hr zones. · Swinger Shutdown Enable ­ This attribute determines whether or not the panel will shut down the communicator and bell for a zone once its swinger limit has been reached. (See 5.20 Swinger Shutdown’ on page 25.) · Transmission Delay Enable ­ This attribute determines whether or not the panel will delay communicating the alarm reporting code for the programmed Transmission Delay Period. (See 5.16Transmission Delay’ on page 24.) · Wireless Zone ­ This attribute determines which zones are to have wireless devices. This allows the panel to generate a low battery trouble and zone supervisories for the wireless zones. NOTE: Any zone with the wireless attribute enabled will not cause an alarm for a fault condition when armed (or any time for 24-hour zones).
Zone Attributes . . . . . . . . . . . . Sections [101] – [108]: [1] – [8] 5.4 Assigning Keypad Zones
Z’ keypads have zone inputs to which devices–such as door contacts–can be connected. (See 2.13Keypad Zones’ on page 6 for wiring information.) Once the keypad zones are installed, assign the zone in programming section [020] Keypad Zone Assignments. Enter the 2 digit zone designated for each keypad (slot) from 01-08.
Keypad Zone Assignments . . . . . . . . . . . . . . . . . . . . . . [020] 5.5 Zone Doubling
When the Zone Doubler option is enabled on a PC1565, Zone 1 will become Zones 1 and 7, Zone 2 will become Zones 2 and 8, and so on, up to 12 hardwired zones. ON = Zone Doubling is enabled The 6 zones on the main board now act as 12 zone inputs using the configuration outlined below. When this option is enabled, the zone paired up with the zones listed below (Fire Zone, etc.) must be a Null Zone (Not Used). · (07) Delayed Fire · (08) Standard Fire · (09) GSM Supervisory · (24) GSM Answer NOTE: The Zone types listed above are wired as EOL. When enabled, options 1 and 2 in section 013 are ignored. Wireless and Keypad Zones should not be used on zones designated for Zone Doubling (PC1565: Zones 1-12) Fast Loop Response Feature (Section 030) will not work when Zone Doubling is enabled.
OFF = Zone Doubling is disabled The 6 zones on the main board act as 6 zone inputs.
Zone Doubling . . . . . . . . . . . . . . . . . . . . . . . Section [013]:[5] 5.6 Communicator ­ Dialing
If the Communicator Disable option is selected, the panel will not attempt to call central station. If communication is enabled, the panel will attempt to call central station when an event with a valid reporting code occurs. (See 5.9 `Communicator ­ Reporting Codes’ on page 18.)

The Communicator Call Direction options are used to select which telephone number the panel will dial when an event occurs. If the DTMF Dialing option is enabled, the panel will dial using DTMF (touch tone). If the Switch to Pulse Dial option is enabled, the panel will switch to pulse dialing on the fifth attempt to call the central station. When this option is disabled, the panel will always dial using DTMF. If DTMF Dialing is disabled, the panel will always pulse dial. When the Force Dialing option is enabled, the panel will dial out regardless of the presence of dial tone. Each dialing attempt will follow this pattern: a) the panel picks up the telephone line and searches for dial
tone for 5 seconds
b) if no dial tone is found, the panel hangs up and waits for 20 seconds
c) the panel picks up the telephone line again and searches for a dial tone for 5 seconds
d) the panel will then dial regardless of the presence of dial tone
If there is no initial handshake recognized within 40 seconds the panel will then hang up the line. If the Force Dialing option is disabled, each attempt will still follow the above pattern, except that the panel will not dial in step d if no dial tone is detected. The Delay Between Dialing Attempts timer adds a delay before the next call is dialed. If the Busy Tone Detection option is enabled, the panel will hang up after detecting busy tone for 5 seconds and will redial after the amount of time programmed in the Delay Between Dialing Attempts section. Maximum Dialing Attempts determines the maximum number of attempts the panel will make to send a signal to the central station before indicating a Failure to Communicate (FTC) trouble condition. The 3rd Telephone Number can be used to back up the 1st in this situation. (See 5.8 `Communicator ­ Telephone Numbers’ on page 18.) If a later communication attempt is successful, the FTC reporting code(s) programmed in section [351] will be transmitted along with the unreported events from an earlier unsuccessful communication. When Bell on FTC when Armed is enabled in programming section [702], option [8], an FTC during the armed period will sound an Audible Alarm for the length of Bell time-out or until the system is disarmed. If FTC Trouble Only when Armed is enabled, only the keypad buzzer will sound trouble beeps every 10 seconds until a key is pressed. Post Dial Wait for Handshake determines the amount of time the panel will wait for a valid handshake from the receiver. If the panel does not hear the handshake it will consider the call a failed attempt, hang up and try again. The Pulse Dialing Make/Break Ratio option can change the Make/Break ratio to 33/67 from the North American ratio of 40/ 60. With ID Tone Enabled the panel will pulse a tone on the telephone line to indicate that the panel is on the line. The 2100Hz/1300Hz ID Tone option selects the frequency of the ID tone that is pulsed on the line.
NOTE:Contact your local telephone company to confirm which settings should be used.
DTMF or Pulse Dialing . . . . . . . . . . . . . . . . .Section [380]: [3] Switch to Pulse Dialing on Fifth Attempt . . .Section [380]: [4]

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Communicator Enable/Disable . . . . . . . . . . Section [380]: [1] Communicator Call Direction Options . . . Section [361]-[368] Force Dialing . . . . . . . . . . . . . . . . . . . . . . . . Section [702]: [2] Delay Between Dialing Attempts. . . . . . . . . . . . Section [703] Busy Tone Detection . . . . . . . . . . . . . . . . . . Section [701]: [6] Maximum Dialing Attempts . . . . . . . . . . . . . . . . Section [160] Post Dial Wait for Handshake . . . . . . . . . . . . . . Section [161] Pulse Dialing Make/Break Ratio . . . . . . . . . Section [702]: [1] ID Tone Enabled . . . . . . . . . . . . . . . . . . . . . Section [702]: [5] 2100Hz/1300Hz ID Tone . . . . . . . . . . . . . . . Section [702]: [6] Bell on FTC/Trouble Only . . . . . . . . . . . . . . . Section [702]: [8] 5.7 Communicator ­ Account Numbers
The account number is used by the central station to distinguish between panels. There are two account numbers programmable for the PC1565.
First Account Code (4 digits) . . . . . . . . . . . . . . Section [310] Second Account Code (4 digits) . . . . . . . . . . . Section [311] 5.8 Communicator ­ Telephone Numbers
The panel can use three different telephone numbers for communicating with the central station. The First Telephone Number is the primary number, the Second Telephone Number is the secondary number and the Third Telephone Number will back up the First telephone number if enabled. NOTE:The Third Telephone Number will NOT back up the Second Telephone Number.
NOTE: If you enter a telephone number section (sections [301] – [303]) at an LED keypad, pressing [#] will delete the programmed telephone number and change all the digits to [F].
If the Alternate Dial option is enabled, the panel will alternate between the first and third telephone numbers when attempting to call the central station. If the option is disabled, the panel will only attempt to call the Third telephone number after failing to communicate with the first telephone number. NOTE:To use the Third Telephone Number, you must enable it in section [380], option [5], and program it in section [303].
NOTE:Telephone numbers can be up to 32 digits. This allows you to add special digits if required. To program the telephone number, enter the numbers 0 through 9 as required. The following is a list of programmable Hex digits and the functions they perform:
Hex (B) – simulates the [*] key on a touch tone telephone Hex (C) – simulates the [#] key on a touch tone telephone Hex (D) – forces the panel to search for dial tone Hex (E) – forces the panel to pause for 2 seconds Hex (F) – marks the end of the telephone number NOTE:The first digit of all telephone numbers must be the Hex digit D’ for dial tone search, or two HexEs’ for a 4-second pause.
First Telephone Number . . . . . . . . . . . . . . . . . . Section [301] Second Telephone Number. . . . . . . . . . . . . . . . Section [302] Third Telephone Number . . . . . . . . . . . . . . . . . . Section [303] Third Telephone Number Enable. . . . . . . . . Section [380]: [5] Alternate Dial . . . . . . . . . . . . . . . . . . . . . . . . Section [380]: [6]

5.9 Communicator ­ Reporting Codes
The panel can be programmed to report events to the central station by sending the Reporting Code programmed for a particular event. Reporting codes can be one or two digits and can use Hex digits (A through F). For a complete description of reporting codes which can be programmed and lists of automatic Contact ID and SIA format codes, please see Appendix A: `Reporting Codes’ on page 44. NOTE:Do not use the digit C in a reporting code when using Pager Format. In most cases, the digit C will be interpreted as a [#], which will terminate the page before it has finished.
Reporting Codes. . . . . . . . . . . . . . . . . .Section [320] to [353] Cross Zone Police Reporting Code The Cross Zone Police Code Alarm will be sent when two different alarms occur during any armed-to-armed period. When an alarm occurs while the panel is armed and a second alarm occurs on a different zone during the same armed period, or after the system is disarmed, this code will be sent. All zone types contribute to this alarm. The cross zone police code will be transmitted immediately unless either or both zones have the Transmission Delay attribute enabled. If so, the code will be delayed for the programmed transmission delay time.
Cross Zone Police Code Alarm . . . . . . . . . . . . Section [328] Zone Restorals If the Restoral on Bell Time-out option is selected, the panel will send the Zone Restoral Reporting Code for the zone if the bell cut-off time has expired and the zone is secured. If the zone is not secured when the bell cut-off time expires, the panel will send the restoral immediately once the zone is secured, or when the system is disarmed. If the Restoral on Bell Time- out option is not selected, the panel will immediately send the Zone Restoral Reporting Code when the zone is secured, regardless of whether or not the alarm output is active. NOTE: 24-hr type zones will report the restoral immediately when the zone is secured.
Restoral on Bell Time-out . . . . . . . . . . . . . . Section [380]: [2] Closings (Arming Codes) If the Closing Confirmation option is enabled, once the exit delay expires, the keypad will sound a series of eight beeps to confirm to the user that the closing code was sent and received by the central station.
Closing Confirmation . . . . . . . . . . . . . . . . . Section [381]: [4] Openings/Closings by Wireless Key If you are using a PC5132 v3.0 or higher, wireless keys with access codes may be identified when they are used to arm or disarm the system: the panel will log and transmit opening or closing by access code (the same as if an access code had been used to arm/disarm the system). If wireless keys with no access code are used, the event will be logged and transmitted as opening or closing by keyswitch. The Function Keys Require Code option must be selected (section [015], option 4 OFF) in order for wireless keys to be identified for arming. Disarming will always be logged by access code, if one is programmed for the Key, regardless of this option.

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P r o g r a m D es c r i p t i o n s : 5.10 Communicator ­ Reporting Formats

AC Failure Trouble Alarm Code To prevent the panel from transmitting an AC Failure Trouble Alarm reporting code during short power outages, the panel will not send the signal unless AC power is lost for the amount of minutes programmed for the AC Failure Communication Delay. The AC Failure Trouble Restoral reporting code follows the AC failure communication delay as well. NOTE:If AC Failure Communications Delay is programmed as “000,” then the AC failure transmission will be immediate.
AC Failure Communication Delay . . . . . . . . . . Section [370] Wireless Maintenance The panel will transmit a Wireless Device Low Battery Alarm reporting code if a low battery condition is indicated by a detector. The transmission of the trouble will be delayed by the number of days programmed for Zone Low Battery Transmission Delay. The Wireless Device Low Battery Restoral reporting code will be transmitted when the problem is corrected. The specific zone that caused the trouble will be recorded in the event buffer. NOTE: The restoral will not be transmitted until all detectors indicate good battery conditions.
Wireless Maintenance Reporting Codes . . . . . Section [353] Wireless Device Battery Transmission Delay . . Section [370] Arming and Activity Delinquency When Delinquency Follows Arming (Days) is selected, the Delinquency reporting code is sent whenever the panel is not armed within the number of days programmed for the Delinquency Transmission Cycle. NOTE: If the Delinquency Transmission Cycle is set for one day, there must be 24-hrs of no arming or disarming before the Delinquency Code will be sent. After a Delinquency Code has been transmitted, it will not be sent again until the system has been armed and disarmed.
When Delinquency Follows Zone Activity (hours) is enabled, if there is no activity on zones in the system, the Delinquency Transmission Cycle Timer in Section [370] will begin counting in hours. When the counter reaches the programmed time, the panel will communicate the Delinquency reporting code to the central station, if programmed. If there is a closing or zone activity present on the system at any time, the counter will be reset. NOTE:Activity Delinquency will not be reported while the panel is armed in Away mode.
NOTE:Activity on manually bypassed zones will not reset the timer.
NOTE:This timer is reset when the panel is armed, or if Installer Programming is entered.
NOTE:When using the SIA FSK communication format with Activity Delinquency, the Closing Delinquency identifier is transmitted.
Miscellaneous Maintenance Reporting Codes Section [351] Delinquency Follows Zone Activity. . . . . . . . . . . . . . [380]: [8] Delinquency Transmission Cycle . . . . . . . . . . . . . . . . . [370] 5.10 Communicator ­ Reporting Formats
Each communication telephone number can be programmed to report using any one of eight formats available. Two 20 BPS

pulse formats and two 10 BPS formats are supported, in addition to Contact ID, SIA, Pager and Residential Dial formats. The Communicator Call Direction options can be used to disable the reporting of events such as Openings and Closings. NOTE: Do not program the 2nd telephone number to use Contact ID or SIA reporting code formats (section [360]) if Automatic reporting codes are selected for either Contact ID or SIA (section [381]).
Communicator Format Options . . . . . . . . . . . . . Section [360] Communicator Call Directions . . . . . . . Section [361] to [368] The following is a description of each reporting format:
Pulse Formats Depending on which pulse format is selected, the panel will communicate using the following specifications: · 3/1, 3/2, 4/1 or 4/2 · 1400 or 2300 Hz handshake · 10 or 20 bits per second · non-extended With the 1600Hz Handshake option enabled, the communicator will respond to 1600Hz handshakes when using the reporting Communication Formats 01 and 02 only. When the Standard Handshake option is enabled, the communicator will respond to the handshake specified by the BPS format (1400Hz or 2300Hz). Additional Notes on Pulse Formats 1. The digit 0′ will send no pulses and is used as a filler digit. 2. When programming account numbers, enter four digits. When programming a three digit account number, the fourth digit must be programmed as0′. 3 digit account number [123] – program [1230] 3. If an account number has a 0′ in it, substitute a Hex digitA’ for the 0′. For example: 3 digit account number [502] – program [5A20] 4 digit account number [4079] – program [4A79] 4. Reporting codes are two digits. When programming single-digit Reporting Codes, the second digit must be programmed as a0′. If a 0′ is to be transmitted, substitute Hex digitA’. For example: 1 digit Reporting Code [3] – program [30] 2 digit Reporting Code [30] – program [3A] 5. To prevent the panel from reporting an event, the reporting code should be programmed as [00] or [FF].
1600Hz/Standard Handshake . . . . . . . . . . .Section [702]: [4] Contact ID Contact ID is a specialized format that will communicate information using tones rather than pulses. This format allows more information to be sent faster than other formats. For example, in addition to reporting an alarm in zone one, the Contact ID format will also report the type of alarm, such as an Entry/Exit alarm. If the Contact ID uses Programmed Reporting Codes option is enabled, a two digit number from Appendix A must be entered in programming sections [320] to [353] for each event to be transmitted. The two digit number determines the type of alarm. The panel will automatically generate all other information, including the zone number.

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If the Contact ID uses Automatic Reporting Codes option is enabled, the panel will operate as follows: 1. If an event’s reporting code is programmed as [00], the
panel will not attempt to call the central station. 2. If the reporting code for an event is programmed as any-
thing from [01] to [FF], the panel will automatically generate the zone or access code number. See Appendix A for a list of the codes which will be transmitted. NOTE:If the Automatic Contact ID option is selected, the panel will automatically generate all zone and access code numbers, eliminating the need to program these items.
If the Contact ID uses Programmed Reporting Codes option is enabled, the panel will operate as follows: 1. If an event’s reporting code is programmed as [00] or [FF],
the panel will not attempt to call central station. 2. If the reporting code for an event is programmed as any-
thing from [01] to [FE], the panel will send the programmed reporting code.
Additional Notes on Contact ID 1. Account numbers must be four digits. 2. All reporting codes must be two digits. 3. Substitute the Hex digit A’ for the 0′. 4. To prevent the panel from reporting an event, the reporting
code should be programmed as [00]. Please refer to Appendix A: “Reporting Codes”for a list of Contact ID Identifiers.
Contact ID Uses Programmed/Automatic Codes . . [381]: [7] SIA SIA is a specialized format that will communicate information quickly using Frequency Shift Keying (FSK) rather than pulses. The SIA format will automatically generate the type of signal being transmitted, such as Burglary, Fire, Panic etc. The two digit reporting code is used to identify the zone or access code number. NOTE: If the Automatic SIA option is selected, the panel will automatically generate all zone and access code numbers, eliminating the need to program these items.
If the SIA Sends Automatic Reporting Codes option is enabled, the panel will operate as follows: 1. If an event’s reporting code is programmed as [00], the
panel will not attempt to call the central station. 2. If the reporting code for an event is programmed as any-
thing from [01] to [FF], the panel will automatically generate the zone or access code number. If the SIA Sends Programmed Reporting Codes option is enabled, the panel will operate as follows: 1. If an event’s reporting code is programmed as [00] or [FF], the panel will not attempt to call central station. 2. If the reporting code for an event is programmed as anything from [01] to [FE], the panel will send the programmed reporting code. Please refer to Appendix A: “Reporting Codes”for a list of SIA identifiers.
SIA Sends Automatic Reporting Codes . . . Section [381]: [3] Pager Format The Communicator Format option for either telephone number can be programmed as Pager format. If an event occurs and the Communicator Call Direction options direct the call to a

telephone number with the Pager Format selected, the panel will attempt to page. When calling a pager, extra digits will be required in order for the format to function properly. The following is a list of Hex digits and the functions they perform: Hex [B] – simulates the [*] key on a touch tone telephone Hex [C] – simulates the [#] key on a touch tone telephone Hex [D] – forces the panel to search for dial tone Hex [E] – two second pause Hex [F] – marks the end of the telephone number The panel will attempt to call the pager once. Once the appropriate telephone number is dialed, the panel will send the account number and Reporting Code followed by the [#] key (Hex [C]). The panel has no way of confirming if the pager was called successfully. A Failure To Communicate trouble will only be generated if the panel detects a busy tone on all dialing attempts, or if no dial tone is detected on all dialing attempts. The pager format will not cause any form of ringback. NOTE:The Pager Format cannot be used with the GSM1000 cellular communicator.
NOTE:Do not use the digit C in a reporting code when using Pager Format. In most cases, the digit C will be interpreted as a [#], which will terminate the page before it has finished.
NOTE:If the panel detects a busy signal, it will attempt to page again. It will make the maximum number of attempts programmed in section [160].
NOTE:Force dialing should be disabled when using Pager format.
NOTE:When using Pager format, you must program two Hex digit E’s at the end of the telephone number
Residential Dial If Residential Dial is programmed, and an event occurs that is programmed to communicate, the panel will seize the line and dial the appropriate telephone number(s). Once the dialing is complete, the panel will emit an ID tone and wait for a handshake (press a 1, 2, 4, 5, 7, 8, 0, or # key from any touchtone telephone). It will wait for this handshake for the duration of Post Dial Wait for Handshake timer. Once the panel receives the handshake, it will emit an alarm tone over the telephone line for 20 seconds. If several alarms occur at the same time, only one call will be made to each telephone number the panel is programmed to call. NOTE: The keys 3, 6 and 9 are not valid handshakes.
Post Dial Wait for Handshake Timer . . . . . . . . . Section [161] 5.11 Downloading
The required downloading software is DLS-3 v1.3 and higher. Downloading allows you to program the entire control panel via a computer, a modem and a telephone line. All functions, features, their changes and status ­ such as trouble conditions and open zones ­ can be viewed or programmed through downloading. NOTE:Downloading is always enabled for six hours each time the panel is powered up, unless the User Can Enable DLS Window option is disabled
The panel will answer calls for downloading when the programmed Number of Rings is heard by the panel.

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If the Answering Machine/Double Call option is enabled (or during the first six hours after power up), the panel will answer incoming calls for downloading in the following manner: 1. The panel hears one or two rings then misses a ring.
2. At this point the panel will start a the double-call timer.
3. If the panel hears another ring before the Answering Machine Double-Call Timer expires, it will answer on the first ring of the second call.
The panel will immediately go on line and begin downloading. If the Call-Back option is enabled, the panel and the computer will both hang up. The panel will then call the Downloading Computer’s Telephone Number and wait for the computer to answer. Once the computer answers, downloading will begin. If the User Enabled DLS Window option is ON, the user can activate the downloading feature for a set period of time by entering [][6][Master Code][5]. If the Full 6-hour User Enabled DLS Window option is enabled, when the user opens the DLS window with [][6][Master code][5], the DLS window will remain open for six hours. The DLS window will remain open after a successful hang-up from a downloading call. If the One Time 1-hour User Enabled DLS Window option is enabled, when the user opens the DLS window with [][6][Master code][5], the DLS window will stay open for one hour, and will close after a successful hang-up from a downloading call. After six hours, the panel will not answer incoming calls unless the Answering Machine/Double Call option is enabled, or the Number of Rings is programmed to be more than [0]. If the User Initiated Call-Up option is enabled, the user can have the panel initiate a call to the downloading computer by pressing [][6][Master Code][6]. The Download Access Code and Panel Identifier Code are for security and proper identification. Both the panel and the computer file should contain the same information programmed before attempting to download. The time to complete a successful download can be significantly reduced with the use of the PC-LINK. This adaptor makes it possible to perform on-site downloading. To Initiate Local Downloading via the PC-LINK, enter [*][8][Installer’s Code][499][Installer’s Code][499]. All keypads will be busy for the duration of the PC-LINK connection. The status LEDs will display the current system status on the keypad where the PC-LINK was initiated. For more information on connecting the PC-LINK, refer to your “PC-LINK Download Kit Instruction Sheet”.
NOTE: When a zone status upload is performed through PCLINK, the information uploaded may not be accurate. For more information, refer to your DLS-3 manual.
Downloading can also be performed through the GSM1000 cellular communicator if the telephone line is disconnected. If using the GSM1000 with call back, you need to program the GSM1000 Preamble with the downloading telephone number in order for the panel to call the computer correctly.
NOTE:When uploading labels from LCD keypads, only labels from the LCD keypad assigned to slot 8 will be uploaded.
Answering Machine/Double Call . . . . . . . . Section [401]: [1] User Enable DLS Window . . . . . . . . . . . . . Section [401]: [2] Call-Back . . . . . . . . . . . . . . . . . . . . . . . . . . Section [401]: [3] User-initiated Call-up enabled/disabled. . . Section [401]: [4] One/Six Hour User-enabled DLS Window . Section [702]: [7] Downloading Computer’s Telephone Number Section [402]

Downloading Access Code . . . . . . . . . . . . . . . . Section [403] Panel Identification Code. . . . . . . . . . . . . . . . . . Section[404] Answering Machine Double Call Timer . . . . . . Section [405] Number of Rings to Answer On . . . . . . . . . . . . . Section [406] GSM1000 Preamble (Downloading) . . . . . . . . . Section [490] Initiate Local Downloading (PC-LINK) . . . . . . . . Section [499]

5.12 PGM Output Options
Program the programmable outputs PGM1 and PGM2 on the main board by selecting one of the output options listed below (exceptions noted).

Main Board PGM Outputs . . . . . . . . . . . . . . . . . Section [009]

NOTE: PGM outputs cannot be completely disabled in installer’s programming. To disable a PGM output completely, you must remove all wiring from the output.

[01] Burglary and Fire Bell Output The output will activate when the alarm output is active and will deactivate when the alarm output is silenced. If the alarm output is pulsing, the PGM output will pulse as well. This output will follow the activation of the alarm output (pre-alert) for delayed fire zones. [02] For future use [03] Sensor Reset ([*][7][2]) NOTE:This output will normally be active (switched to ground).

This option is used to reset power for latching smoke detectors. The output will deactivate for five seconds when the [][7][2] command is entered. (See `[][7] Command Output Functions’ on page 11.) The keypad buzzer will not sound for the five second period. Please refer to the Control Panel Wiring Diagram in this manual for wiring instructions.
NOTE:Only ONE of options [03] Sensor Reset and [20] [*][7][2] Command Output Option #2 may be programmed on the same system.

[04] For future use [05] Armed Status When the system is armed, the PGM output will activate at the beginning of the exit delay. The output deactivates when the system is disarmed. [06] Ready To Arm The PGM will be active as long as the system is ready to arm and all non-force armable zones on the system are restored. Once an access code is entered to arm the system and the exit delay begins, the PGM output is deactivated. [07] Keypad Buzzer Follower Mode

The PGM will activate when any of the following events occur

and will remain active for as long as the keypad buzzer is

active:

· Door Chime

· Entry Delay

· Auto-Arm Prealert

· Audible Exit Delay

· 24-hr Supervisory Buzzer Zone

[08] Courtesy Pulse Upon arming, the PGM output will activate for the duration of the exit delay plus an additional two minutes. Upon disarming, the PGM output will activate for the duration of the entry delay plus an additional two minutes.

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[09] System Trouble Output The PGM output will activate when any of the selected trouble conditions are present. It will deactivate when all the selected trouble conditions are cleared. The PGM attributes for this option, programmed in Sections [141] to [142], differ from the standard selection of attributes. Program which trouble conditions will activate the output by selecting some or all of the following attributes:
Attribute [1] ………. Service Required (battery, bell, general trouble, general tamper, general supervisory) [2] ………. AC Failure [3] ……….Telephone Line Trouble [4] ………. Failure to Communicate [5] ………. Fire Trouble / Zone Fault [6] ………. Zone Tamper [7] ……….Zone Low Battery [8] ……….Loss of Clock
[10] System Event (Strobe Output) The output activates when any of the selected system events (alarms) occur on the system.
NOTE: This output will activate for silent and audible alarms or medical conditions only. It will not activate during pre-alert or delays.
If attribute [8] is turned ON, the output will activate for the number of seconds programmed in the PGM output timer (section [164]). If attribute [8] is turned OFF, in the armed state, the output will deactivate only once the system is disarmed. If an alarm activates this output in the disarmed state, the output will deactivate if a user enters a valid access code while the Bell Cut-off timer is counting down. The output will also deactivate if someone arms the system after the Bell Cut-off has expired. This output can be used to indicate that an alarm has occurred before entering the premises. The PGM attributes for this option, programmed in Sections [141] to [142], differ from the standard selection of attributes. Program which events will activate the output by selecting some or all of the following attributes:
Attribute [1]……… Burglary (Delay, Instant, Interior, Stay/Away and 24-hr Burglary Zones) [2]……… Fire (Fire Keys, Fire Zones) [3]……… Panic (Panic Keys and Panic Zones) [4]……… Medical (Auxiliary Keys, Medical and Emergency Zones) [5]……… Supervisory (Supervisory, Freezer and Water Zones) [6]……… Priority (Gas, Heat, Sprinkler and 24-hr Latching Zones) [7]……… Holdup (Holdup zones) [8]……… Output Follows Timer (output will activate for the number of seconds programmed in the PGM Output Timer) / Output Latched
NOTE:If attribute [8] is turned ON, attributes [1-7] must also be turned ON.
PGM Output Timer. . . . . . . . . . . . . . . . . . . . . . . Section [164] [11] System Tamper (All Sources) The PGM output will activate when any tamper condition is present and will deactivate when all tampers are restored. [12] TLM and Alarm The PGM output activates when the system experiences both a telephone line trouble and an alarm. When the system is armed, the output will deactivate only if an access code is entered or if the telephone line is restored. If an alarm activates this output in the disarmed state, the output will deactivate if a user enters a valid access code while the Bell Cut-off timer is counting down, or if the telephone line is restored. The output will also deactivate if someone arms the system after the Bell Cut-off has expired.
NOTE:This output will activate for all silent and audible alarms except the Duress alarm and 24-hr PGM inputs.
[13] Kissoff Output The output will activate for two seconds after the control panel receives the kissoff transmission from the central station.
[14] Ground Start Pulse The PGM Output will activate for two seconds to obtain a dial tone on Ground Start telephone equipment before the panel attempts to dial. Insert two 2-second pauses at the beginning of the telephone number when using this option.
[15] Remote Operation (DLS-3 Support) This output can be activated and deactivated remotely using the DLS software.
[16] GSM1000 Support (PGM1 Only) The PGM output will be used as a data wire to communicate telephone number information for the GSM1000 cellular unit.
[17] Away Armed Status
When the system is armed in the Away mode, the PGM output will activate at the beginning of the exit delay. The output deactivates when the panel is disarmed.
[18] Stay Armed Status When the system is armed in the Stay mode, the PGM output will activate at the beginning of the exit delay. The output deactivates when the panel is disarmed.
[19] [][7][1] Command Output Option #1
[20] [][7][2] Command Output Option #2
[21] [][7][1] Command Output Option #3
[22] [][7][2] Command Output Option #4 These outputs are user-initiated by entering [][7[1-2]][ at any keypad. When any output is activated, three acknowledgment beeps are sounded.
NOTES on Option [20] [][7][2]: Press [][7][2][Access Code, if required] to activate any output programmed as one of PGM output option [03] or [20]. Traditionally, [][7][2] has been reserved for resetting smoke detectors. Smoke detectors should now be programmed as output [03] “Sensor Reset”.
NOTE:Only ONE of options [03] Sensor Reset and [20] [*][7][2] Command Output Option #2 may be programmed on the same system.
[23] Silent 24-hr (PGM2 Only) A Panic button may be placed on the PGM2 terminal for use as a silent 24-hr Panic. The keypad will not indicate the alarm in any way and the Bell will remain silent but the PGM2 Alarm reporting code will be sent to the central station. PGM output option [23] will not activate other programmable outputs of any kind. This input does not follow Swinger Shutdown.
[24] Audible 24-hr (PGM2 Only) A Panic button may be placed on the PGM2 Terminal for use as an Audible 24-hr Panic. When the button is pressed, LCD keypads will indicate “System in Alarm”, the bell will sound until the Bell Cut-off expires or until a valid access code is

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entered, and the PGM2 Alarm reporting code will be sent to the central station. PGM output option [24] will not activate other programmable outputs except for outputs programmed as [01]. This input does not follow Swinger Shutdown.

[25]-[29]For future use [30] Status Alarm Memory This feature is intended to be used on a keyswitch plate and will function as follows:
· This output will activate (steady), at the beginning of the exit delay, when the system is armed.
· If an alarm occurs while armed, the output will flash (1 sec ON, 1 sec OFF) for the remainder of the armed period
· If an alarm occurs while disarmed (24 Hr zone), the output will flash (1 sec ON, 1 sec OFF) until the alarm is acknowledged (bells are silenced during BTO, or the partition is armed after BTO).
NOTE: PGM Attribute #3 should not be used with this output.

PGM Output Attributes In addition to programming the output type, you must also program the PGM output attributes for each output.

PGM output options [09] “System Trouble” and [10] “System Event” have their own unique set of attributes listed below the description of each output type.

PGM output options [01], [03], [05]-[08], [11]-[24] have the following attributes:

Attribute…. ON

OFF

[1]……. PGM Enable

PGM Disable

[3]……. True Output

Inverted Output

Attribute ON: the output energizes when activated

Attribute OFF: the output de-energizes when acti-

vated

[4]……. Output Pulsed

Output ON/OFF

Attribute ON: the output will activate once for the

amount of time programmed in section [164]

when initiated by the user

Attribute OFF: the output will toggle ON or OFF

when initiated by the user.

(Only applicable to options [19]-[20].)

[5]……. Access Code Req. No code Req. Attribute ON: the output requires a code for activation. Attribute OFF: no code required. (only applicable to keypad- activated outputs)

PGM attributes return to their default settings when you change PGM output options. Please see the programming worksheets for a list of the default settings for each PGM output type.

Be careful when selecting the normal and active states of each PGM output to ensure that an undesirable output state does not occur after a loss and restore of AC power.

NOTE: Attribute [3] must be ON (default) for PGM output options [16], [23] and [24].

NOTE: If you program more than one PGM output as the same output type (e.g. if PGM1 and PGM2 are both programmed as [19] Command Output 1), the settings for output attributes [1], [2] and [5] must be the same. This does not apply to outputs programmed as types [09] and [10].

PGM Output Attributes . . . . . . . . . . . . . . Section [141]-[142]

5.13 Telephone Line Monitor (TLM)
When the TLM Enable option is selected, the panel will supervise the telephone line and will indicate a trouble condition if the telephone line is disconnected. If the TLM Enable option is ON, the panel will check the telephone line every 10 seconds. If the telephone line voltage is below 3V for the number of checks programmed in the TLM Trouble Delay section, the panel will report a TLM trouble. The default number of checks is 3. Enter a number from [003] to [255] in the TLM Trouble Delay section to change the number of checks before the TLM trouble is reported. Programming a delay means that a momentary interruption of the telephone line will not cause a trouble condition. If the TLM Trouble Beeps When Armed option is enabled, the panel will indicate a TLM trouble at the keypad while the system is armed. To activate the bell output in the case of a TLM trouble while the system is armed, the TLM Audible (Bell) When Armed option must be selected. When the trouble condition is restored, the panel can send a TLM Restoral reporting code. Any events which occur while the telephone line is down will also be communicated. If the GSM1000 Cellular Communicator, or LINKS2X50 is being used, the panel can be programmed to report a TLM Trouble Reporting Code.
TLM Enable/Disable. . . . . . . . . . . . . . . . . . .Section [015]: [7] TLM Trouble Beeps When Armed or TLM Audible (Bell) When Armed . . . . . . . . .Section [015]: [8] TLM Trouble Reporting Code . . . . . . . . . . . . . . Section [349] TLM Restoral Reporting Code . . . . . . . . . . . . . . Section [350] TLM Trouble Delay . . . . . . . . . . . . . . . . . . . . . . . Section [370] 5.14 Bell
The bell will silence after the number of minutes programmed for the Bell Cut- Off time have passed. The panel supervises the Bell output. If an open condition is detected, the panel will immediately indicate a trouble condition by beeping the keypad twice every 10 seconds to alert the owner of the problem. The panel can send a Bell Circuit Trouble and Trouble Restoral reporting codes to indicate the situation (See 5.9 `Communicator ­ Reporting Codes’ on page 18.) If the Temporal Three Fire Signal option is enabled, all Fire s

References

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